Versioned Archive and Review of Biotic Interactions
and Taxon Names Found within globalbioticinteractions/limbu2025
hash://md5/cdc6545ee343cc33587ef7b51f265da5
by Nomer, Elton and Preston, three naive review
bots
Life on Earth is sustained by complex interactions between organisms
and their environment. These biotic interactions can be captured in
datasets and published digitally. We present a review and archiving
process for such an openly accessible digital interactions dataset of
known origin and discuss its outcome. The dataset under review, named
globalbioticinteractions/limbu2025, has fingerprint
hash://md5/cdc6545ee343cc33587ef7b51f265da5, is 12.6MiB in size and
contains 37,571 interactions with 2 unique types of associations (e.g.,
coOccursWith) between 281 primary taxa (e.g., Entrophospora lamellosum)
and 2,008 associated taxa (e.g., Zea mays). This report includes
detailed summaries of interaction data, a taxonomic review from multiple
catalogs, and an archived version of the dataset from which the reviews
are derived.
Introduction
Data Review and Archive
Data review and archiving can be a time-consuming process, especially
when done manually. This review report aims to help facilitate both
activities. It automates the archiving of datasets, including Darwin
Core archives, and is a citable backup of a version of the dataset.
Additionally, an automatic review of species interaction claims made in
the dataset is generated and registered with Global Biotic Interactions
(J. H. Poelen, Simons,
and Mungall 2014).
This review includes summary statistics about, and observations
about, the dataset under review :
S. Pehim Limbu, S.L. Stürmer, G. Zahn, C.A. Aguilar-Trigueros, N.
Rogers, & V.B. Chaudhary, Climate-linked biogeography of mycorrhizal
fungal spore traits, Proc. Natl. Acad. Sci. U.S.A. 122 (29) e2505059122,
https://doi.org/10.1073/pnas.2505059122 (2025).
https://github.com/globalbioticinteractions/limbu2025/archive/461a5f43a0ceadec056ca19816e9209ea8b317b1.zip
2026-03-28T03:08:20.405Z hash://md5/cdc6545ee343cc33587ef7b51f265da5
For additional metadata related to this dataset, please visit https://github.com/globalbioticinteractions/limbu2025
and inspect associated metadata files including, but not limited to,
README.md, eml.xml, and/or globi.json.
Methods
The review is performed through programmatic scripts that leverage
tools like Preston (Elliott
et al. 2025), Elton (Kuhn, Poelen, and Leinweber 2025), Nomer
(Salim and Poelen
2025), globinizer (J. Poelen, Seltmann, and Mietchen 2024)
combined with third-party tools like grep, mlr, tail and head.
The review process can be described in the form of the script below
1.
# get versioned copy of the dataset (size approx. 12.6MiB) under review
elton pull globalbioticinteractions/limbu2025
# generate review notes
elton review globalbioticinteractions/limbu2025\
> review.tsv
# export indexed interaction records
elton interactions globalbioticinteractions/limbu2025\
> interactions.tsv
# export names and align them with the Catalogue of Life using Nomer
elton names globalbioticinteractions/limbu2025\
| nomer append col\
> name-alignment.tsv
network diagram showing the taxon family to taxon family interaction
claims in the dataset under review as interpreted by the Catalogue of
Life via Nomer Corpus of Taxonomic Resources (J. H. (ed. ). Poelen 2024)
network diagram showing the taxon kingdom to taxon kingom
interaction claims in the dataset under review as interpreted by the
Catalogue of Life via Nomer Corpus of Taxonomic Resources (J. H. (ed. ). Poelen
2024)
taxonomic names found in the dataset under review aligned with the
Catalogue of Life as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in gzipped comma-separated values format
taxonomic names found in the dataset under review aligned with the
Catalogue of Life as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in gzipped html format
taxonomic names found in the dataset under review aligned with the
Catalogue of Life as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in gzipped tab-separated values format
taxonomic names found in the dataset under review aligned with the
Catalogue of Life as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in Apache Parquet format
taxonomic names found in the dataset under review aligned with
Discover Life bee species checklist as accessed through the Nomer Corpus
of Taxonomic Resources (J. H. (ed. ). Poelen 2024) in gzipped
comma-separated values format
taxonomic names found in the dataset under review aligned with
Discover Life bee species checklist as accessed through the Nomer Corpus
of Taxonomic Resources (J. H. (ed. ). Poelen 2024) in gzipped
html format
taxonomic names found in the dataset under review aligned with
Discover Life bee species checklist as accessed through the Nomer Corpus
of Taxonomic Resources (J. H. (ed. ). Poelen 2024) in gzipped
tab-separated values format
taxonomic names found in the dataset under review aligned with
Discover Life bee species checklist as accessed through the Nomer Corpus
of Taxonomic Resources (J. H. (ed. ). Poelen 2024) in Apache
Parquet format
taxonomic names found in the dataset under review aligned with GBIF
Backbone Taxonomy as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in gzipped comma-separated values format
taxonomic names found in the dataset under review aligned with GBIF
Backbone Taxonomy as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in gzipped html format
taxonomic names found in the dataset under review aligned with GBIF
Backbone Taxonomy as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in gzipped tab-separated values format
taxonomic names found in the dataset under review aligned with GBIF
Backbone Taxonomy as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in Apache Parquet format
taxonomic names found in the dataset under review aligned with
Integrated Taxonomic Information System (ITIS) as accessed through the
Nomer Corpus of Taxonomic Resources (J. H. (ed. ). Poelen 2024) in gzipped
comma-separated values format
taxonomic names found in the dataset under review aligned with
Integrated Taxonomic Information System (ITIS) as accessed through the
Nomer Corpus of Taxonomic Resources (J. H. (ed. ). Poelen 2024) in gzipped
html format
taxonomic names found in the dataset under review aligned with
Integrated Taxonomic Information System (ITIS) as accessed through the
Nomer Corpus of Taxonomic Resources (J. H. (ed. ). Poelen 2024) in gzipped
tab-separated values format
taxonomic names found in the dataset under review aligned with
Integrated Taxonomic Information System (ITIS) as accessed through the
Nomer Corpus of Taxonomic Resources (J. H. (ed. ). Poelen 2024) in Apache
Parquet format
taxonomic names found in the dataset under review aligned with the
Mammal Diversity Database as accessed through the Nomer Corpus of
Taxonomic Resources (J.
H. (ed. ). Poelen 2024) in gzipped comma-separated values
format
taxonomic names found in the dataset under review aligned with
Mammal Diversity Database as accessed through the Nomer Corpus of
Taxonomic Resources (J.
H. (ed. ). Poelen 2024) in gzipped html format
taxonomic names found in the dataset under review aligned with
Mammal Diversity Database as accessed through the Nomer Corpus of
Taxonomic Resources (J.
H. (ed. ). Poelen 2024) in gzipped tab-separated values
format
taxonomic names found in the dataset under review aligned with
Mammal Diversity Database as accessed through the Nomer Corpus of
Taxonomic Resources (J.
H. (ed. ). Poelen 2024) in Apache Parquet format
taxonomic names found in the dataset under review aligned with the
NCBI Taxonomy as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in gzipped comma-separated values format
taxonomic names found in the dataset under review aligned with the
NCBI Taxonomy as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in gzipped html format
taxonomic names found in the dataset under review aligned with the
NCBI Taxonomy as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in gzipped tab-separated values format
taxonomic names found in the dataset under review aligned with the
NCBI Taxonomy as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in Apache Parquet format
taxonomic names found in the dataset under review aligned with the
Paleobiology Database as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in gzipped comma-separated values format
taxonomic names found in the dataset under review aligned with
Paleobiology Database as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in gzipped html format
taxonomic names found in the dataset under review aligned with
Paleobiology Database as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in gzipped tab-separated values format
taxonomic names found in the dataset under review aligned with
Paleobiology Database as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in Apache Parquet format
taxonomic names found in the dataset under review aligned with the
Terrestrial Parasite Tracker (TPT) Taxonomic Resource as accessed
through the Nomer Corpus of Taxonomic Resources (J. H. (ed. ). Poelen 2024) in gzipped
comma-separated values format
taxonomic names found in the dataset under review aligned with the
Terrestrial Parasite Tracker (TPT) Taxonomic Resource as accessed
through the Nomer Corpus of Taxonomic Resources (J. H. (ed. ). Poelen 2024) in gzipped
html format
taxonomic names found in the dataset under review aligned with the
Terrestrial Parasite Tracker (TPT) Taxonomic Resource as accessed
through the Nomer Corpus of Taxonomic Resources (J. H. (ed. ). Poelen 2024) in gzipped
tab-separated values format
taxonomic names found in the dataset under review aligned with the
Terrestrial Parasite Tracker (TPT) Taxonomic Resource as accessed
through the Nomer Corpus of Taxonomic Resources (J. H. (ed. ). Poelen 2024) in Apache
Parquet format
taxonomic names found in the dataset under review aligned with the
World of Flora Online as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in gzipped comma-separated values format
taxonomic names found in the dataset under review aligned with the
World of Flora Online as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in gzipped html format
taxonomic names found in the dataset under review aligned with the
World of Flora Online as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in gzipped tab-separated values format
taxonomic names found in the dataset under review aligned with the
World of Flora Online as accessed through the Nomer Corpus of Taxonomic
Resources (J. H. (ed. ).
Poelen 2024) in Apache Parquet format
taxonomic names found in the dataset under review aligned with the
World Register of Marine Species (WoRMS) as accessed through the Nomer
Corpus of Taxonomic Resources (J. H. (ed. ). Poelen 2024) in gzipped
comma-separated values format
taxonomic names found in the dataset under review aligned with the
World Register of Marine Species (WoRMS) as accessed through the Nomer
Corpus of Taxonomic Resources (J. H. (ed. ). Poelen 2024) in gzipped
html format
taxonomic names found in the dataset under review aligned with the
World Register of Marine Species (WoRMS) as accessed through the Nomer
Corpus of Taxonomic Resources (J. H. (ed. ). Poelen 2024) in gzipped
tab-separated values format
taxonomic names found in the dataset under review aligned with the
World Register of Marine Species (WoRMS) as accessed through the Nomer
Corpus of Taxonomic Resources (J. H. (ed. ). Poelen 2024) in Apache
Parquet format
metadata of this review expressed in Zenodo record metadata
Archived Dataset
Note that data.zip file in this
archive contains the complete, unmodified archived dataset under
review.
Biotic Interactions
Biotic Interaction Data
Model
In this review, biotic interactions (or biotic associations) are
modeled as a primary (aka subject, source) organism interacting with an
associate (aka object, target) organism. The dataset under review
classified the primary/associate organisms with specific taxa. The
primary and associate organisms The kind of interaction is documented as
an interaction type.
The dataset under review, named globalbioticinteractions/limbu2025,
has fingerprint hash://md5/cdc6545ee343cc33587ef7b51f265da5, is 12.6MiB
in size and contains 37,571 interactions with 2 unique types of
associations (e.g., coOccursWith) between 281 primary taxa (e.g.,
Entrophospora lamellosum) and 2,008 associated taxa (e.g., Zea
mays).
An exhaustive list of indexed interaction claims can be found in
gzipped csv, tsv, geopackage and parquet archives. To facilitate
discovery, a preview of claims available in the gzipped html page at indexed-interactions.html.gz are
shown below.
The exhaustive list was used to create the following data summaries
below.
Most Frequently Mentioned Interaction Types (up to 20 most
frequent)
interactionTypeName
count
coOccursWith
19436
hasHost
18135
Most Frequently Mentioned Primary Taxa (up to 20 most
frequent)
sourceTaxonName
count
Entrophospora lamellosum
4302
Rhizophagus intraradices
2557
Funneliformis mosseae
1804
Diversispora epigaea
1125
Archaeospora trappei
1106
Paraglomus laccatum
1033
Gigaspora decipiens
944
Funneliformis caledonium
916
Septoglomus viscosum
867
Entrophospora etunicatum
737
Entrophospora claroideum
682
Septoglomus constrictum
674
Rhizophagus irregularis
643
Funneliformis geosporus
641
Rhizophagus fasciculatus
634
Paraglomus brasilianum
628
Paraglomus occultum
623
Racocetra castanea
609
Acaulospora scrobiculata
591
Most Frequently Mentioned Associate Taxa (up to 20 most
frequent)
targetTaxonName
count
Zea mays
1459
Plantago lanceolata
1415
Triticum aestivum
1278
Festuca rubra
1035
Helictotrichon pubescens
1001
Arrhenatherum elatius
505
Vitis vinifera
430
Daucus carota
422
soybean
410
Coffea arabica
383
Eragostis tef
381
Theobroma cacao
374
Mangifera indica
349
corn
346
Pinus contorta
312
Solanum tuberosum
244
Achillea millefolium
240
Litchi chinensis
235
Mimosa tenuiflora
225
Most Frequent Interactions between Primary and Associate Taxa
(up to 20 most frequent)
sourceTaxonName
interactionTypeName
targetTaxonName
count
Entrophospora lamellosum
coOccursWith
Plantago lanceolata
409
Entrophospora lamellosum
coOccursWith
Pinus contorta
302
Paraglomus laccatum
coOccursWith
Plantago lanceolata
264
Entrophospora lamellosum
coOccursWith
Festuca rubra
255
Entrophospora lamellosum
coOccursWith
Helictotrichon pubescens
254
Archaeospora trappei
coOccursWith
Plantago lanceolata
220
Diversispora epigaea
coOccursWith
Plantago lanceolata
213
Paraglomus laccatum
coOccursWith
Festuca rubra
192
Paraglomus laccatum
coOccursWith
Helictotrichon pubescens
192
Diversispora epigaea
coOccursWith
Festuca rubra
189
Diversispora epigaea
coOccursWith
Helictotrichon pubescens
189
Entrophospora lamellosum
coOccursWith
Triticum aestivum
185
Archaeospora trappei
coOccursWith
Festuca rubra
183
Archaeospora trappei
coOccursWith
Helictotrichon pubescens
183
Funneliformis caledonium
coOccursWith
Triticum aestivum
165
Rhizophagus intraradices
coOccursWith
Plantago lanceolata
144
Funneliformis mosseae
coOccursWith
Zea mays
134
Rhizophagus intraradices
coOccursWith
Triticum aestivum
123
Entrophospora lamellosum
coOccursWith
Zea mays
114
Interaction Networks
The figures below provide a graph view on the dataset under review.
The first shows a summary network on the kingdom level, and the second
shows how interactions on the family level. It is important to note that
both network graphs were first aligned taxonomically using the Catalogue
of Life. Please refer to the original (or verbatim) taxonomic names for
a more original view on the interaction data.
Interactions on taxonomic kingdom rank as
interpreted by the Catalogue of Life download
svgInteractions on the taxonomic family rank
as interpreted by the Catalogue of Life. download
svg
If geospatial information was extracted from the dataset under
review, the map below will show their distribution. These maps were
generated using MapServer (McKenna et al. 2025) tools
configured via map configuration indexed-interactions.map :
MAP
SIZE 1600 800
EXTENT -180 -90 180 90
PROJECTION
"init=epsg:4326"
END
LAYER # MODIS WMS map from NASA
NAME "modis_nasa"
TYPE RASTER
OFFSITE 0 0 0
STATUS ON
CONNECTIONTYPE WMS
CONNECTION "https://gibs.earthdata.nasa.gov/wms/epsg4326/best/wms.cgi?"
METADATA
"wms_srs" "EPSG:4326"
"wms_name" "OSM_Land_Water_Map"
"wms_server_version" "1.1.1"
"wms_format" "image/jpeg"
END
CLASS
STYLE
COLOR 232 232 232
OUTLINECOLOR 32 32 32
END
END
END
LAYER
NAME "indexed-interactions"
TYPE POLYGON
STATUS ON
CONNECTIONTYPE OGR
CONNECTION "indexed-interactions-h3.gpkg"
DATA "indexed-interactions-h3"
CLASS
STYLE
COLORRANGE 253.0 231.0 37.0 32.0 164.0 134.0
DATARANGE 0.3010299956639812 3.490660653356137
RANGEITEM "log_number_of_records"
OUTLINECOLOR 0 0 0
END
END
END
END
Hexagonal grid cells indicate that
interactions claims are available for selected geospatial area: light
yellow means relatively fewer claims, dark green relatively more
claims.
Another way to discover the dataset under review is by searching for
it on the GloBI
website.
Taxonomic Alignment
As part of the review, all names are aligned against various name
catalogs (e.g., col, ncbi, discoverlife, gbif, itis, wfo, mdd, tpt,
pbdb, and worms). These alignments can help review name usage or aid in
selecting of a suitable taxonomic name resource.
Sample of Name Alignments
providedName
relationName
resolvedCatalogName
resolvedName
Belonging families
NONE
col
Belonging families
Abelmoschus esculentus
HAS_ACCEPTED_NAME
col
Abelmoschus esculentus
Abies alba
HAS_ACCEPTED_NAME
col
Abies alba
Abies amabilis
HAS_ACCEPTED_NAME
col
Abies amabilis
Distribution of Taxonomic Ranks of Aligned Names by Catalog.
Names that were not aligned with a catalog are counted as NAs. So, the
total number of unaligned names for a catalog will be listed in their NA
row.
resolvedCatalogName
resolvedRank
count
col
NA
468
col
family
4
col
genus
184
col
order
1
col
section
1
col
species
1514
col
subgenus
1
col
suborder
1
col
subspecies
57
col
variety
24
discoverlife
NA
2209
gbif
NA
448
gbif
family
7
gbif
genus
187
gbif
species
1525
gbif
subspecies
75
gbif
variety
32
itis
NA
1118
itis
family
6
itis
genus
169
itis
order
1
itis
species
891
itis
suborder
1
itis
subspecies
9
itis
variety
20
mdd
NA
2209
ncbi
NA
618
ncbi
clade
1
ncbi
family
4
ncbi
genus
173
ncbi
species
1394
ncbi
subfamily
1
ncbi
subgenus
2
ncbi
subspecies
10
ncbi
varietas
6
pbdb
NA
2062
pbdb
family
6
pbdb
genus
97
pbdb
order
1
pbdb
species
40
pbdb
subfamily
1
pbdb
suborder
1
pbdb
subtribe
1
pbdb
tribe
1
pbdb
unranked clade
1
tpt
NA
2206
tpt
genus
2
tpt
species
1
wfo
NA
729
wfo
family
6
wfo
genus
178
wfo
species
1275
wfo
subspecies
26
wfo
variety
15
worms
NA
1745
worms
family
4
worms
genus
121
worms
order
1
worms
species
336
worms
suborder
1
worms
subspecies
3
worms
variety
4
Name relationship types per catalog. Name relationship type
“NONE” means that a name was not recognized by the associated catalog.
“SAME_AS” indicates either a “HAS_ACCEPTED_NAME” or “SYNONYM_OF” name
relationship type. We recognize that “SYNONYM_OF” encompasses many types
of nomenclatural synonymies (ICZN 1999) (e.g., junior synonym, senior
synonyms).
resolvedCatalogName
relationName
count
col
NONE
495
col
HAS_ACCEPTED_NAME
1543
col
SYNONYM_OF
609
discoverlife
NONE
2289
gbif
NONE
474
gbif
HAS_ACCEPTED_NAME
1973
gbif
SYNONYM_OF
1043
itis
NONE
1147
itis
HAS_ACCEPTED_NAME
974
itis
SYNONYM_OF
244
mdd
NONE
2289
ncbi
NONE
645
ncbi
SAME_AS
1452
ncbi
SYNONYM_OF
202
ncbi
COMMON_NAME_OF
2
pbdb
NONE
2120
pbdb
HAS_ACCEPTED_NAME
173
pbdb
SYNONYM_OF
5
tpt
NONE
2286
tpt
HAS_ACCEPTED_NAME
3
wfo
NONE
758
wfo
HAS_ACCEPTED_NAME
1330
wfo
SYNONYM_OF
376
wfo
HAS_UNCHECKED_NAME
135
worms
NONE
1791
worms
HAS_ACCEPTED_NAME
509
worms
SYNONYM_OF
103
List of Available Name Alignment Reports
catalog name
alignment results
col
associated names alignments report in gzipped html, csv, and tsv)
ncbi
associated names alignments report in gzipped html, csv, and tsv)
discoverlife
associated names alignments report in gzipped html, csv, and tsv)
gbif
associated names alignments report in gzipped html, csv, and tsv)
itis
associated names alignments report in gzipped html, csv, and tsv)
wfo
associated names alignments report in gzipped html, csv, and tsv)
mdd
associated names alignments report in gzipped html, csv, and tsv)
tpt
associated names alignments report in gzipped html, csv, and tsv)
pbdb
associated names alignments report in gzipped html, csv, and tsv)
worms
associated names alignments report in gzipped html, csv, and tsv)
Additional Reviews
Elton, Nomer, and other tools may have difficulties interpreting
existing species interaction datasets. Or, they may misbehave, or
otherwise show unexpected behavior. As part of the review process,
detailed review notes are kept that document possibly misbehaving, or
confused, review bots. An sample of review notes associated with this
review can be found below.
First few lines in the review notes.
reviewDate
reviewCommentType
reviewComment
2026-03-30T23:41:35Z
note
target taxon name missing
2026-03-30T23:41:35Z
note
target taxon name missing
2026-03-30T23:41:35Z
note
target taxon name missing
2026-03-30T23:41:35Z
note
target taxon name missing
In addition, you can find the most frequently occurring notes in the
table below.
Most frequently occurring review notes, if any.
reviewComment
count
target taxon name missing
49502
For additional information on review notes, please have a look at the
first 500 Review Notes in html format
or the download full gzipped csv or tsv archives.
GloBI Review Badge
As part of the review, a review badge is generated. This review badge
can be included in webpages to indicate the review status of the dataset
under review.
Note that if the badge is green, no review notes were generated. If
the badge is yellow, the review bots may need some help with
interpreting the species interaction data.
GloBI Index Badge
If the dataset under review has been registered with
GloBI, and has been succesfully indexed by GloBI, the GloBI Index
Status Badge will turn green. This means that the dataset under review
was indexed by GloBI and is available through GloBI services and derived
data products.
If you’d like to keep track of reviews or index status of the dataset
under review, please visit GloBI’s dataset index 5 for
badge examples.
Discussion
This review and archive provides a means of creating citable versions
of datasets that change frequently. This may be useful for dataset
managers, including natural history collection data managers, as a
backup archive of a shared Darwin Core archive. It also serves as a
means of creating a trackable citation for the dataset in an automated
way, while also including some information about the contents of the
dataset.
This review aims to provide a perspective on the dataset to aid in
understanding of species interaction claims discovered. However, it is
important to note that this review does not assess the quality
of the dataset. Instead, it serves as an indication of the open-ness6 and FAIRness (Wilkinson et
al. 2016; Trekels et al. 2023) of the dataset: to perform this
review, the data was likely openly available, Findable,
Accessible, Interoperable and
Reusable. The current Open-FAIR assessment is
qualitative, and a more quantitative approach can be implemented with
specified measurement units.
This report also showcases the reuse of machine-actionable
(meta)data, something highly recommended by the FAIR Data Principles
(Wilkinson et al.
2016). Making (meta)data machine-actionable enables more precise
procesing by computers, enabling even naive review bots like Nomer and
Elton to interpret the data effectively. This capability is crucial for
not just automating the generation of reports, but also for facilitating
seamless data exchanges, promoting interoperability.
Acknowledgements
We thank the many humans that created us and those who created and
maintained the data, software and other intellectual resources that were
used for producing this review. In addition, we are grateful for the
natural resources providing the basis for these human and bot
activities. Also, thanks to https://github.com/zygoballus for helping
improve the layout of the review tables.
Author contributions
Nomer was responsible for name alignments. Elton carried out dataset
extraction, and generated the review notes. Preston tracked, versioned,
and packaged, the dataset under review.
Kuhn, Tobias, and Michel Dumontier. 2014. “Trusty URIs:
Verifiable, Immutable, and Permanent Digital Artifacts for Linked
Data.” In The Semantic Web: Trends and Challenges,
edited by Valentina Presutti, Claudia d’Amato, Fabien Gandon, Mathieu
d’Aquin, Steffen Staab, and Anna Tordai, 395–410. Cham: Springer
International Publishing.
McKenna, Jeff, Steve Lime, Thomas Bonfort, Jérome Boué, Howard Butler,
Seth Girvin, Tom Kralidis, et al. 2025. “MapServer.”
Zenodo. https://doi.org/10.5281/zenodo.17807263.
Poelen, Jorrit H. (ed.). 2024. “Nomer Corpus of Taxonomic
Resources Hash://Sha256/
B60c0d25a16ae77b24305782017b1a270b79b5d1746f832650 F2027ba536e276
Hash://Md5/17f1363a277ee0e4ecaf1b91c665e47e.” Zenodo. https://doi.org/10.5281/zenodo.12695629.
Poelen, Jorrit H., James D. Simons, and Chris J. Mungall. 2014.
“Global Biotic Interactions: An Open Infrastructure to Share and
Analyze Species-Interaction Datasets.”Ecological
Informatics 24 (November): 148–59. https://doi.org/10.1016/j.ecoinf.2014.08.005.
Trekels, Maarten, Debora Pignatari Drucker, José Augusto Salim, Jeff
Ollerton, Jorrit Poelen, Filipi Miranda Soares, Max Rünzel, Muo Kasina,
Quentin Groom, and Mariano Devoto. 2023. “WorldFAIR Project (D10.1) Agriculture-related pollinator
data standards use cases report.” Zenodo. https://doi.org/10.5281/zenodo.8176978.
Wilkinson, Mark D., Michel Dumontier, IJsbrand Jan Aalbersberg,
Gabrielle Appleton, Myles Axton, Arie Baak, Niklas Blomberg, et al.
2016. “The FAIR Guiding Principles for Scientific
Data Management and Stewardship.”Scientific Data 3 (1).
https://doi.org/10.1038/sdata.2016.18.
