Global Biotic Interactions: Elton Dataset Cache

Global Biotic Interactions: Elton Dataset Cache The intended use of this archive/cache is to allow for offline-enabled access versions of existing species interaction datasets. The program "Elton" (https://doi.org/10.5281/zenodo.998263) was used to populate the content of elton-datasets.tar.gz . The same program can be used to extract information from the cache archive also. Global Biotic Interactions (https://globalbioticinteractions.org, https://doi.org/10.1016/j.ecoinf.2014.08.005) also uses these archives to create derived species interaction data archives, search indexes and APIs. Please note that due to size considerations, offline-enabled access to an elton dataset cache of iNaturalist interaction data has been excluded from this publications and moved into a separate Zenodo publication at https://doi.org/10.5281/zenodo.3950546 . Contents -------- README: this file elton-datasets.tar.gz: versioned archive with species interaction datasets elton-datasets.tar.sha256: content signature of elton-datasets.tar elton-datasets.tsv: list of included datasets elton.jar: commandline program to help access the species interaction datasets Usage ----- To install, extract elton-datasets.tar.gz into a directory of choice using: tar xfz elton-dataset.tar.gz To use, download elton.jar included this publication and execute the following to get a list of available datasets: java -Xmx4G -jar elton.jar datasets on a system that has java v8+ installed. If all goes well, you should be able to regenerate the included file elton-dataset.tsv . For more information on how to use elton.jar, execute: java -jar elton.jar usage or visit https://github.com/globalbioticinteractions/elton for more available commands. Alternatively, without using Elton, you can access the data by inspecting the access.tsv files in the various directories of the datasets directory. When using these datasets in a publication or product, please cite the *original* data providers and publications. You can find the citations in the data. Included datasets: AgentschapPlantentuinMeise/ashForestInteractions Groom, Q.J., Maarten De Groot, M. & Marčiulynienė, D. (2020) Species interation data manually extracted from literature for species . https://github.com/AgentschapPlantentuinMeise/ashForestInteractions/archive/0a73fdc7a424a52ec8398cd153e9fb8b5f465eb2.zip 2021-11-12T23:10:59.455Z fa9cc04c03589a97e2047d534f3e7ba9c8f02805e92d396c1b640b3344a110be 0.12.2 BDMYRepository/Echino-Interactions Soleto-Casas RC and Simões N (2020). Parasitic and commensal invertebrates of echinoderms from American Tropical And Subtropical Atlantic manually extracted from literature. https://zenodo.org/record/3742346/files/BDMYRepository/Echino-Interactions-V3.zip 2021-11-12T23:11:17.748Z 888e5165881b5d3533fc1502300f21d3421abf0af6ccc2bc06b2c90f6b9a58f7 0.12.2 BDMYRepository/Paguroidea-Mollusca-Interactions Cervantes-Campero G and Simões N (2020). Use of shells (Mollusca) by hermit crabs (Paguroidea) from the Southern Gulf of Mexico and the Caribbean Sea. https://zenodo.org/record/3901657/files/BDMYRepository/Paguroidea-Mollusca-Interactions-1.1.zip 2021-11-12T23:11:25.778Z d35f79522c66505bcd1b676c9c39c70725f195b64434568f90b0ef2d82956e56 0.12.2 BDMYRepository/Sponge_Interactions Pérez-Botello A M and Simões N (2019). Sponge-dwelling fauna from the Gulf of Mexico and the Caribbean sea a manually extracted from literature. V2.0 https://zenodo.org/record/4544355/files/BDMYRepository/Sponge_Interactions-2.06.zip 2021-11-12T23:11:34.611Z 29b599e9cc46659381c45365dc9dc5d8e2f2490f6eb379ace41b7ada667c9f53 0.12.2 Big-Bee-Network/bee-interaction-database Seltmann, K., Van Wagner, J., Behm, R., Brown, Z., Tan, E., & Liu, K. (2020). BID: A project to share biotic interaction and ecological trait data about bees (Hymenoptera: Anthophila). UC Santa Barbara: Cheadle Center for Biodiversity and Ecological Restoration. Retrieved from https://escholarship.org/uc/item/1g21k7bf https://github.com/Big-Bee-Network/bee-interaction-database/archive/99659e611eaf6594d11f913d18eabae51ff09bef.zip 2021-11-12T23:11:56.872Z 02873ad486861456acddd80ac444cc7e8828b7eae1985ca11e5c8cbb26ce966e 0.12.2 CALeDNA/Klamath-mountains Genus level interactions from a metagenomic analysis of eDNA samples from the Klamath mountains https://github.com/CALeDNA/Klamath-mountains/archive/2a885acccb9c7d8f0f368044d9ba71d74c309450.zip 2021-11-12T23:12:03.156Z 8bdedeb77ef6ec5be27937768adaf20d48671be636bffb79eb9d278d8bb666ed 0.12.2 EMTuckerLabUMMZ/ummzi University of Michigan Museum of Zoology Insect Division. Full Database Export 2020-11-20 provided by Erika Tucker and Barry Oconner. https://github.com/EMTuckerLabUMMZ/ummzi/archive/6731357a377e9c2748fc931faa2ff3dc0ce3ea7a.zip 2021-11-12T23:12:53.239Z 2c8c0ec09c6b0509882ad2d98a8a1ee1d1ea870c3ab2e7d69a0486f2e4643b01 0.12.2 EOL/pseudonitzchia A. Thessen. 2014. Species associations extracted from EOL text data objects via text mining. https://github.com/EOL/pseudonitzchia/archive/e5838965a186fba4b7215cd0d179c4526773bad5.zip 2021-11-12T23:14:06.961Z c68c9950743e245a54937e84a725ea945f272eb271392b762a2da00577e44db8 0.12.2 Extended-Bee-Network/bee-interaction-database Seltmann, K., Van Wagner, J., Behm, R., Brown, Z., Tan, E., & Liu, K. (2020). BID: A project to share biotic interaction and ecological trait data about bees (Hymenoptera: Anthophila). UC Santa Barbara: Cheadle Center for Biodiversity and Ecological Restoration. Retrieved from https://escholarship.org/uc/item/1g21k7bf https://github.com/Extended-Bee-Network/bee-interaction-database/archive/99659e611eaf6594d11f913d18eabae51ff09bef.zip 2021-11-12T23:14:18.705Z 02873ad486861456acddd80ac444cc7e8828b7eae1985ca11e5c8cbb26ce966e 0.12.2 Faizaufa/redhead2018 Redhead, J.W.; Coombes, C.F.; Dean, H.J.; Dyer, R.; Oliver, T.H.; Pocock, M.J.O.; Rorke, S.L.; Vanbergen, A.J.; Woodcock, B.A.; Pywell, R.F. (2018). Plant-pollinator interactions database for construction of potential networks. NERC Environmental Information Data Centre. https://doi.org/10.5285/6d8d5cb5-bd54-4da7-903a-15bd4bbd531b https://github.com/Faizaufa/redhead2018/archive/89ca7296078cce01a293813e509700d6c05faabc.zip 2021-11-12T23:14:23.735Z 1c7ea5a4d2cf7d51718723adaa2e36e0d936518921b7db8c02988cc37cacaa5c 0.12.2 FloraVincent/DIDB Flora Vincent. 2019. DIDB: Diatom Interaction DataBase. https://github.com/FloraVincent/DIDB/archive/c5146d235b6d0701d8828d518bb7f290a5633a31.zip 2021-11-12T23:14:40.111Z 045e44bc71c26b826a30932236254fac4727fce6b9a1a77cd3422ba28e8fe7a0 0.12.2 GoMexSI/JLewis_GoMexSi http://gomexsi.tamucc.edu https://github.com/GoMexSI/JLewis_GoMexSi/archive/f55ee847661a28b136a86f6669e81669f656fc1b.zip 2021-11-13T04:21:02.172Z 01d7c985a183f74a69a709e342252489417fb667a28c66c461bc71043835a0bc 0.12.2 GoMexSI/abascal http://gomexsi.tamucc.edu https://github.com/GoMexSI/abascal/archive/d2bbfcdfa4499ecc7fb021cee66aae05139b9a08.zip 2021-11-13T04:20:12.703Z 4486a9ea58c7401723df75dafc2b5f24ce275d7e7edf5defb56bc5cc1103a9fc 0.12.2 GoMexSI/akin Akin, S., & Winemiller, K. O. (2006). Seasonal variation in food web composition and structure in a temperate tidal estuary. Estuaries and Coasts, 29(4), 552–567. doi:10.1007/bf02784282 https://github.com/GoMexSI/akin/archive/6fc86470c20812be325612f51783ae3e7342a2ea.zip 2021-11-13T04:20:27.551Z da0b6f7eb2436d7123c24ddf44d49c388b44d770604558d54943968e834fce03 0.12.2 GoMexSI/baremore Baremore, I., Murie, D., & Carlson, J. (2010). Seasonal and size-related differences in diet of the Atlantic angel shark Squatina dumeril in the northeastern Gulf of Mexico. Aquatic Biology, 8, 125–136. doi:10.3354/ab00214 https://github.com/GoMexSI/baremore/archive/de843f7a86b9cb2e5b2d511e9082e13c7b88862f.zip 2021-11-13T04:20:31.971Z ed5b533a989052437aeee0ad2096ff3d22cca734ecbf720e23bd2e7b4327ecff 0.12.2 GoMexSI/blewett Blewett, D. A., Hensley, R. A., & Stevens, P. W. (2006). Feeding Habits of Common Snook, Centropomus undecimalis, in Charlotte Harbor, Florida. 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Master Thesis. https://github.com/GoMexSI/wrast/archive/6a06057d7f3ccc4204378573ca03725862256d0c.zip 2021-11-13T04:21:21.312Z 30e9f0533a5c1a15c291bbb64d5e5fc3f77ea7fb4ebf7b07fc0ea9abef2ffa20 0.12.2 KatjaSchulz/dinosaur-biotic-interactions Katja Schulz. 2015. Information about dinosaur diets manually extracted from literature. https://github.com/KatjaSchulz/dinosaur-biotic-interactions/archive/e744bef6ff47d57b86b81fe767ad983ef5b7f460.zip 2021-11-13T04:24:36.498Z 39c57bf7c59637e4495e68746743421f6e07fa61d9d25495fd92210be1333324 0.12.2 NASUA/ZalophusPredatoryInteractions Carranco.S ; Muñoz, G. 2018. Galapagos sea lion fish-feeding interaction dataset in the San Cristobal Island https://github.com/NASUA/ZalophusPredatoryInteractions/archive/c9f28887dd94d5c9dac239ed23f9f92a6bbb8b11.zip 2021-11-13T04:42:10.101Z 770be4c86440edc567306f0d910303eabb4ac8ce4d19a46431c68385e1a34523 0.12.2 PHI-base/data Urban M, Cuzick A, Rutherford K, Irvine A, Pedro H, Pant R, Sadanadan V, Khamari L, Billal S, Mohanty S, Hammond-Kosack KE. PHI-base: a new interface and further additions for the multi-species pathogen-host interactions database. Nucleic Acids Res. 2017 Jan 4;45(D1):D604-D610. doi: 10.1093/nar/gkw1089. Epub 2016 Dec 3. PMID:27915230 https://github.com/PHI-base/data/archive/55bdbb9105aeeafbd31e830a6bc18cc2afaa315e.zip 2021-11-13T04:47:07.815Z 9fb590efddf1ce872d382003568efb4bd43378991e6752b4818216840b22b7aa 0.12.2 ParasiteTracker/tick-interaction-database Seltmann, Katja C. 2020. Biotic species interactions about ticks manually extracted from literature. https://github.com/ParasiteTracker/tick-interaction-database/archive/09944e1a7283c2ff8514b1860e8299c527517040.zip 2021-11-13T04:42:33.097Z db8e1ea4e698ded1f7dbd6e74531899d8e02c78000887c80143776d653b6fe51 0.12.2 ParasiteTracker/vampire-moth-dwca Occurrence Records for vampire-moths-and-their-fruit-piercing-relatives. 2018-09-27. South Central California Network - 2ba077c1-aa41-455e-9a84-bccb61a91230. https://github.com/ParasiteTracker/vampire-moth-dwca/archive/c4549a1690b84595c88946f477057b9ab76e5360.zip 2021-11-13T04:42:37.906Z 5304518021dd435af41637132ad7629d464db3f8221a60f9e4cb89fddc28c0e9 0.12.2 ParasiteTracker/vampire-moths-and-their-fruit-piercing-relatives-Occurrence-Records Occurrence Records for vampire-moths-and-their-fruit-piercing-relatives. 2018-09-27. South Central California Network - 2ba077c1-aa41-455e-9a84-bccb61a91230. https://github.com/ParasiteTracker/vampire-moths-and-their-fruit-piercing-relatives-Occurrence-Records/archive/c4549a1690b84595c88946f477057b9ab76e5360.zip 2021-11-13T04:42:43.133Z 5304518021dd435af41637132ad7629d464db3f8221a60f9e4cb89fddc28c0e9 0.12.2 ThaoLe20/Bottlenose-Dolphin-Diet : Gime´nez J, Marc¸alo A, Ramı´rez F, Verborgh P, Gauffier P, Esteban R, et al. (2017) Diet of bottlenose dolphins (Tursiops truncatus) from the Gulf of Cadiz: Insights from stomach content and stable isotope analyses. PLoS ONE 12 (9): e0184673. https://doi.org/10.1371/journal. pone.0184673 https://github.com/ThaoLe20/Bottlenose-Dolphin-Diet/archive/c9ff689ba155ec0120532105b5f1c8e506c4cd11.zip 2021-11-13T04:48:38.813Z 759b2c7aad030f4c79835707da62b6c1f5f7ab58e06490d57d5e492b81f69086 0.12.2 ThaoLe20/Diet-of-bottlenose-dolphins : Gime´nez J, Marc¸alo A, Ramı´rez F, Verborgh P, Gauffier P, Esteban R, et al. (2017) Diet of bottlenose dolphins (Tursiops truncatus) from the Gulf of Cadiz: Insights from stomach content and stable isotope analyses. PLoS ONE 12 (9): e0184673. https://doi.org/10.1371/journal. pone.0184673 https://github.com/ThaoLe20/Diet-of-bottlenose-dolphins/archive/c9ff689ba155ec0120532105b5f1c8e506c4cd11.zip 2021-11-13T04:48:43.150Z 759b2c7aad030f4c79835707da62b6c1f5f7ab58e06490d57d5e492b81f69086 0.12.2 ThaoLe20/Fish-diets : Gime´nez J, Marc¸alo A, Ramı´rez F, Verborgh P, Gauffier P, Esteban R, et al. (2017) Diet of bottlenose dolphins (Tursiops truncatus) from the Gulf of Cadiz: Insights from stomach content and stable isotope analyses. PLoS ONE 12 (9): e0184673. https://doi.org/10.1371/journal. pone.0184673 https://github.com/ThaoLe20/Fish-diets/archive/c9ff689ba155ec0120532105b5f1c8e506c4cd11.zip 2021-11-13T04:48:47.560Z 759b2c7aad030f4c79835707da62b6c1f5f7ab58e06490d57d5e492b81f69086 0.12.2 ThaoLe20/Testing Jorrit H. Poelen. 2014. Species associations manually extracted from literature. https://github.com/ThaoLe20/Testing/archive/40a28dac110a264ad69c63c024ca11646f5f4250.zip 2021-11-13T04:48:56.823Z 7f4c77a3c4bd2218372929128ec6871c49364b0e6852ab628ad3f5e8022755cd 0.12.2 ThaoLe20/template-dataset Jorrit H. Poelen. 2014. Species associations manually extracted from literature. https://github.com/ThaoLe20/template-dataset/archive/40a28dac110a264ad69c63c024ca11646f5f4250.zip 2021-11-13T04:48:52.605Z 7f4c77a3c4bd2218372929128ec6871c49364b0e6852ab628ad3f5e8022755cd 0.12.2 TutoTestTuto/tutorial Pérez-Botello A M and Simões N (2019). Sponge-dwelling fauna from the Gulf of Mexico and the Caribbean sea a manually extracted from literature. https://github.com/TutoTestTuto/tutorial/archive/fea86a576396b139c65e0dbc7f8cca2f02cdde84.zip 2021-11-13T04:49:21.568Z c6430c995604d0edec3a05b678dddda5d3e0281c2a6c1b4f86319375cd2f4035 0.12.2 UCcongenomics/template-dataset Jorrit H. Poelen. 2014. Species associations manually extracted from literature. https://github.com/UCcongenomics/template-dataset/archive/ab8b030f16f4de01dc42c1c5669c629943dfec9a.zip 2021-11-13T04:49:26.219Z 0edd05ff80b5ca69d0d7a695ecee4a8e485fea2b6c2b555b011b7e09ee17da73 0.12.2 ZekeMarshall/ZMBioticInteractions Zeke Marshall. 2021. Species interactions manually extracted from literature. https://github.com/ZekeMarshall/ZMBioticInteractions/archive/8a2c1b0c5d40e115d06fe12d0d366ab5f2e2ca75.zip 2021-11-13T04:51:28.522Z 654e05ecf286db677fb8a6a9bc9daea8ace38724564f11e85f9c2c2934340745 0.12.2 abarner/template-dataset Jorrit H. Poelen. 2014. Species associations manually extracted from literature. https://github.com/abarner/template-dataset/archive/4bdb2493d4a6a9c36e864b1a2e3bab40459a1098.zip 2021-11-12T23:10:53.387Z e7410c21c897071619c1c444b5cc30662aa962362b8c916a0135e77d0536ba35 0.12.2 arw36/willoughby-etal-2017-roost-interactions Willoughby AR, Phelps KL, Olival KJ, Predict Consortium. A comparative analysis of viral richness and viral sharing in cave-roosting bats. Diversity. 2017 Sep;9(3):35. https://github.com/arw36/willoughby-etal-2017-roost-interactions/archive/05e08a5961d8c126103046a945dfea67ed20475b.zip 2021-11-12T23:11:04.388Z f2bce55ce35f646dd3d8714f7145d1dcf8478f609b57aecafc2194a81221e27a 0.12.2 arw36/willoughby-etal-2017-virus-interactions Willoughby AR, Phelps KL, Olival KJ, Predict Consortium. A comparative analysis of viral richness and viral sharing in cave-roosting bats. Diversity. 2017 Sep;9(3):35. https://github.com/arw36/willoughby-etal-2017-virus-interactions/archive/113064ba0e2cb6e16c290cffb5b4d2342f0aa728.zip 2021-11-12T23:11:09.257Z a5546a583e267d22cae305420804f16684115cf8d73b404b8877b738cc2eabe1 0.12.2 beraute/Klamath-mountains Genus level interactions from a metagenomic analysis of eDNA samples from the Klamath mountains https://github.com/beraute/Klamath-mountains/archive/2a885acccb9c7d8f0f368044d9ba71d74c309450.zip 2021-11-12T23:11:40.392Z 8bdedeb77ef6ec5be27937768adaf20d48671be636bffb79eb9d278d8bb666ed 0.12.2 beraute/Pillar_Point_16S_18S Meyer R.S., et al., Beach environmental DNA fills gaps in photographic biomonitoring to track spatiotemporal community turnover across 82 phyla. Environmental DNA, submitted June 3, 2019. https://github.com/beraute/Pillar_Point_16S_18S/archive/3629f2e425baf3c0cbdee5347c6dc92cc608dde7.zip 2021-11-12T23:11:45.422Z 96ae6aa18e4f996fd43707b8898a2bd6d677611f61565e8011fe4e6e64b57bb0 0.12.2 beraute/Pillar_Point_CO1_16S Meyer R.S., et al., Beach environmental DNA fills gaps in photographic biomonitoring to track spatiotemporal community turnover across 82 phyla. Environmental DNA, submitted June 3, 2019. https://github.com/beraute/Pillar_Point_CO1_16S/archive/9a003a189116c5ea00cb4b53d3e44a0d791661eb.zip 2021-11-12T23:11:50.525Z 58700f4b0c49c2a22ec304a601e59f3d0015bfb88b7a58cd1e18ee0485e5d9e5 0.12.2 cmungall/Benesh-et-al-2017 Sarah E Miller. 9/19/2017. Species associations manually extracted from Benesh, D. P., Lafferty, K. D. and Kuris, A. (2017), A life cycle database for parasitic acanthocephalans, cestodes, and nematodes. Ecology, 98: 882. doi:10.1002/ecy.1680 https://github.com/cmungall/Benesh-et-al-2017/archive/129b7f7f66ee09bc4da41e46ea3dd7ad89e53fea.zip 2021-02-19T23:24:26.371Z 8ff87825f8a732d743ba938a6984fad95be0b80d3622e3dd2bf9f093a795a9b3 0.12.2 cmungall/dinosaur-biotic-interactions Katja Schulz. 2015. Information about dinosaur diets manually extracted from literature. https://github.com/cmungall/dinosaur-biotic-interactions/archive/e744bef6ff47d57b86b81fe767ad983ef5b7f460.zip 2021-02-19T23:24:29.631Z d0f170c3096f6084e8a085260cd6f0df68e92b8cd66aa3c91a0c328daf58de33 0.12.2 cmungall/dinosaur-biotic-interactions1 Katja Schulz. 2015. Information about dinosaur diets manually extracted from literature. https://github.com/cmungall/dinosaur-biotic-interactions1/archive/e744bef6ff47d57b86b81fe767ad983ef5b7f460.zip 2021-02-19T23:24:31.228Z d0f170c3096f6084e8a085260cd6f0df68e92b8cd66aa3c91a0c328daf58de33 0.12.2 debpaul/DIDB Flora Vincent. 2019. 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Biological associations extracted from fossil specimens. https://github.com/ekrimmel/paleo-interactions-test/archive/9e8b180c0a41daffcfc148593d72059cbbb1ef94.zip 2021-11-12T23:12:28.825Z 6f67698baec5755af4780bdda486ff40bea1b3734b4c9bf7897b184287397ee7 0.12.2 elntangle/bee-interaction-database Seltmann, Katja C. 2020. Biotic species interactions about bees (Anthophila) manually extracted from literature. https://github.com/elntangle/bee-interaction-database/archive/7c3ad5013d98925b38c7b3b118886a44c68d2b40.zip 2021-11-12T23:12:33.587Z 54e7732303c97e315b835ff743e3b71ca40c932e4e382d36d066285f915d2820 0.12.2 fgabriel1891/Palm-Frugivore_Interactions_Neo-Afrotropics Muñoz, G., Trøjelsgaard, K., & W.D. Kissling. 2018. A synthesis of animal-mediated seed dispersal of palms reveals distinct biogeographic differences in species interactions. 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Catalogue of Afrotropical Bees. https://zenodo.org/record/4216814/files/globalbioticinteractions/Catalogue-of-Afrotropical-Bees-v0.2.zip 2021-11-12T23:28:25.644Z ba8760d5c6f9af48442f603d54f970e236d17b7c946a4da418f1e875f26044b2 0.12.2 globalbioticinteractions/EDWIP Failed inoculations indexed from negative.csv of Onstad, D.W. EDWIP: Ecological Database of the World's Insect Pathogens. Data provided by Onstad and transcribed by Tad Dallas . https://github.com/globalbioticinteractions/EDWIP/archive/8849e26d1a6f1033ee26d39648a8e31a4b4d9da2.zip 2021-06-24T19:12:19.609Z 445c540e3852eb3c92217d24d9efb29837a48d631357dce338a2ad4f3dde0421 0.12.2 globalbioticinteractions/NeoBat_Interactions Florez-Montero GL, Muylaert RL, Geiselman C, Nogueira MR, Santana SE, Stevens RD, Tschapka M, Rodrigues FA, Mello MAR. 2021. NeoBat Interactions: a data set of bat-plant interactions in the Neotropics. 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Plant pathogen-host interactions scraped from Common Names of Plant Diseases published by the American Phytopathological Society at http://www.apsnet.org/publications/commonnames/Pages/default.aspx using Samara, a Planteome (http://planteome.org) plant-trait scraper. https://github.com/globalbioticinteractions/aps/archive/454b09c5307f6a5dbb16343dfed8bb8fbb54df2f.zip 2021-11-12T23:15:18.387Z c46ed1a78fcbd1bdd20a503b099e9f7a684132101d7ac761d4a3afdd439993b5 0.12.2 globalbioticinteractions/aps-turfgrasses Poelen, JH (2017). Plant pathogen-host interactions semi-automatically scraped from Common Names of Plant Diseases published by the American Phytopathological Society at http://www.apsnet.org/publications/commonnames/Pages/Turfgrasses.aspx using Samara, a Planteome (http://planteome.org) plant-trait scraper. https://github.com/globalbioticinteractions/aps-turfgrasses/archive/bdd72cdc780a1963ad56f6a5249350cce21e2bd6.zip 2021-11-12T23:16:23.911Z 7fd6f87de46b667f8e6d6e641ee143dcf30d92c9c739e25e0122119a1a3931c9 0.12.2 globalbioticinteractions/asu-asuhic Arizona State University Hasbrouck Insect Collection https://github.com/globalbioticinteractions/asu-asuhic/archive/025665959d3a7a37dc9dcc532c80166359274dd7.zip 2021-11-12T23:16:55.926Z f2efa1252d76a9c1a1637b9af83dd48f99305ee584cf208d851df61423f33d7e 0.12.2 globalbioticinteractions/aziz2021 Aziz, S. A., McConkey, K. R., Tanalgo, K., Sritongchuay, T., Low, M.-R., Yong, J. Y., … Racey, P. A. (2021). 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(2018). GlobAL daTabasE of traits and food Web Architecture (GATEWAy) version 1.0 [Data set]. German Centre for Integrative Biodiversity Research (iDiv) Halle-Jena-Leipzig. https://doi.org/10.25829/IDIV.283-3-756 https://github.com/globalbioticinteractions/brose-gateway/archive/c89ac44d03decc76d59908d74e2a5ff6d3cd618d.zip 2021-11-12T23:26:51.929Z 6e0393c09b7d421ec0eeceaeb59d9af5e832e543b45b80004605932541c84a2f 0.12.2 globalbioticinteractions/brtc-para Texas A&M University, Biodiversity Teaching and Research Collections https://github.com/globalbioticinteractions/brtc-para/archive/80cd7f140076fae1c09ebd0bba198b1c306e5661.zip 2021-11-12T23:27:05.708Z 125166481ad721da41eb8ea81e8f93c0534abec9236cd7ec51c70dbb9e3693a7 0.12.2 globalbioticinteractions/bthk-database Bat Tree Habitat Key. 2021. 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Ecology, 94(2), 544–544. doi:10.1890/12-1419.1 https://github.com/globalbioticinteractions/strona/archive/5b9f1fb08966d2f295b341509b8765002eaf0df1.zip 2021-11-13T02:10:21.615Z ca0fafe650f9b73adb07e1e637240017bc199587dbcb27553cd24f703d2c01c6 0.12.2 globalbioticinteractions/strong2014 Strong, Justin S., and Shawn J. Leroux. 2014. "Impact of Non-Native Terrestrial Mammals on the Structure of the Terrestrial Mammal Food Web of Newfoundland, Canada." PLOS ONE 9 (8): e106264. https://doi.org/10.1371/journal.pone.0106264 https://github.com/globalbioticinteractions/strong2014/archive/b1f9888c29c1bc657081f49ffa1a1c00434615f7.zip 2021-11-13T02:10:26.715Z c96b66532610b886b36acf8557b49468ccc16bbd5c2f3557908d0fe747a6376d 0.12.2 globalbioticinteractions/szoboszlai2015 Szoboszlai AI, Thayer JA, Wood SA, Sydeman WJ, Koehn LE (2015) Data from: Forage species in predator diets: synthesis of data from the California Current. Dryad Digital Repository. http://dx.doi.org/10.5061/dryad.nv5d2 https://github.com/globalbioticinteractions/szoboszlai2015/archive/189f0d2bdb23d6bc5166dd086a4d76e62a78da40.zip 2021-11-13T02:10:34.472Z ac776372828ec405829b4ae5dbb6e5eee23cdd3ff308a875c14a9b179337c54f 0.12.2 globalbioticinteractions/tamuic-ent Texas A&M University Insect Collection https://github.com/globalbioticinteractions/tamuic-ent/archive/625c537abae5c9ea1f79aee2867fb541b2a2116b.zip 2021-11-13T02:10:39.402Z f5104355437144779ce2c1820493dd32b165d9f8355a2fe9bdea47f439247eb3 0.12.2 globalbioticinteractions/template-dataset Jorrit H. Poelen. 2014. Species associations manually extracted from literature. https://zenodo.org/record/1436853/files/globalbioticinteractions/template-dataset-0.0.3.zip 2021-11-13T02:12:00.559Z 5b4ee64e7384bdf3d75b1d6617edd5d82124567b4ec52b47920ea332837ff060 0.12.2 globalbioticinteractions/thieltges2011 David W. Thieltges, Karsten Reise, Kim N. Mouritsen, John P. McLaughlin, and Robert Poulin. 2011. Food web including metazoan parasites for a tidal basin in Germany and Denmark. Ecology 92:2005. https://doi.org/10.1890/11-0351.1 https://github.com/globalbioticinteractions/thieltges2011/archive/ea1981bced3ca60b556b5d7af8422a75b870d012.zip 2021-11-13T02:12:05.221Z 8d783d24c2c759b0801d420929237025ff887a4e30c2d9924f342cc20a402dd5 0.12.2 globalbioticinteractions/thomas-sabaj2020 Thomas, M.R., & M.H. Sabaj. 2020. Heptapteridae: Seven-finned Catfishes, In: M.L. Warren, Jr. & B.M. Burr (eds.) with A.A. Echelle, B.R. Kuhajda & S.T. Ross, Freshwater Fishes of North America: Characidae to Poeciliidae, vol. 2. 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University of Nebraska State Museum - Parasitology. Harold W. Manter Laboratory of Parasitology. University of Nebraska State Museum. https://github.com/globalbioticinteractions/unl-nsm/archive/6bcd8aec22e4309b7f4e8be1afe8191d391e73c6.zip 2021-11-13T02:14:17.278Z ba1726e355149e1893ee7742c5cab0e0ce963f04bd19ee19ef6ba24d26e1f63d 0.12.2 globalbioticinteractions/uredinales-belgium-checklist Vanderweyen A, Fraiture A, Groom Q, Desmet P, Reyserhove L (2019). Catalogue of the Rust Fungi of Belgium. 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Data provided by Onstad and transcribed by Tad Dallas . https://github.com/jhpoelen/EDWIP/archive/34f66868ad413f1884c581061291e14eaf0147d9.zip 2021-11-13T04:23:05.979Z 250495aee1eee5f59e79a886cbfff375c58b0a4e865f59489d9d829e98244878 0.12.2 jhpoelen/FRUBASE Jordano, Pedro (2013), Data from: Angiosperm fleshy fruits and seed dispersers: a comparative analysis of adaptation and constraints in plant-animal interactions, Dryad, Dataset, https://doi.org/10.5061/dryad.9tb73 https://github.com/jhpoelen/FRUBASE/archive/ed685ad34c4bc40221fce273c94bfa3e34e84ddc.zip 2021-11-13T04:23:10.994Z 0e5ac8d4bf52fc5b6d6b3302edcc6dae28bf9a6717b50a6c0223909eb86c1973 0.12.2 jhpoelen/JLewis_GoMexSi http://gomexsi.tamucc.edu https://github.com/jhpoelen/JLewis_GoMexSi/archive/f55ee847661a28b136a86f6669e81669f656fc1b.zip 2021-11-13T04:23:21.363Z 01d7c985a183f74a69a709e342252489417fb667a28c66c461bc71043835a0bc 0.12.2 jhpoelen/Lice Sarah E Miller. 06/17/2015. Durden, Lance A., and Guy A. Musser. The Sucking Lice (Insecta, Anoplura) of the World : A Taxonomic Checklist with Records of Mammalian Hosts and Geographical Distributions. Bulletin of the AMNH ; No. 218. New York: American Museum of Natural History, 1994. Web. https://github.com/jhpoelen/Lice/archive/7adc3eebf7a62bc83390a952217759e9da571864.zip 2021-11-13T04:23:38.639Z 3fff0167e2812eb03467391e75a70a3c4e66524164ce97ab06138c6a4652fcd8 0.12.2 jhpoelen/animal-disease Mungall CJ. 2016. Animal Diseases. GitHub. https://github.com/jhpoelen/animal-disease/archive/fe22abb536b2c4a828c485a8e2495dbd00343cfe.zip 2021-11-13T04:22:03.573Z 04a49b5d4e4fc8acf3e60b99f4da685296ffcefc859f113be525781f7342007b 0.12.2 jhpoelen/ballantyne2015 Ballantyne, Gavin; Baldock, Katherine C. R.; Willmer, Pat G. (2015), Data from: Constructing more informative plant-pollinator networks: visitation and pollen deposition networks in a heathland plant community, Dryad, Dataset, https://doi.org/10.5061/dryad.17pp3 https://github.com/jhpoelen/ballantyne2015/archive/7238fce4c1a08b1a3e7c27ba1782abe0b262d6c1.zip 2021-11-13T04:22:08.909Z cdab3ba66d4198322407fc37c57f3d90755be796af796ab36ac5922b864f1299 0.12.2 jhpoelen/bee-interaction-database Seltmann, K., Van Wagner, J., Behm, R., Brown, Z., Tan, E., & Liu, K. (2020). BID: A project to share biotic interaction and ecological trait data about bees (Hymenoptera: Anthophila). UC Santa Barbara: Cheadle Center for Biodiversity and Ecological Restoration. Retrieved from https://escholarship.org/uc/item/1g21k7bf https://github.com/jhpoelen/bee-interaction-database/archive/bb75b7faf03d152be71a5805c99c95ec0afa4f1a.zip 2021-11-13T04:22:16.126Z 92c19d33bbb883754040a7dc49722eae00ffa91b045294f041ac050491ccaf4a 0.12.2 jhpoelen/caradonna2020 CaraDonna, P.J. 2020. Temporal variation in plant-pollinator interactions, Rocky Mountain Biological Laboratory, CO, USA, 2013 - 2015 ver 1. Environmental Data Initiative. https://doi.org/10.6073/pasta/27dc02fe1655e3896f20326fed5cb95f (Accessed 2021-04-16). https://github.com/jhpoelen/caradonna2020/archive/2ae5c1f4ce1e65fef5098a27652320e5d90fa7b9.zip 2021-11-13T04:22:20.516Z e40c1ee38dc8f9807f0049278f37e4bb3dd2043b5c53e26ac415481bc258e877 0.12.2 jhpoelen/data Urban M, Cuzick A, Rutherford K, Irvine A, Pedro H, Pant R, Sadanadan V, Khamari L, Billal S, Mohanty S, Hammond-Kosack KE. PHI-base: a new interface and further additions for the multi-species pathogen-host interactions database. Nucleic Acids Res. 2017 Jan 4;45(D1):D604-D610. doi: 10.1093/nar/gkw1089. Epub 2016 Dec 3. PMID:27915230 https://github.com/jhpoelen/data/archive/9e947b7711dd40ec76b2c146ccf788d3cde71651.zip 2021-11-13T04:22:55.450Z ba74229441776a2cf6c397ad2212200f0324ed39381af2f135aa3a3a44e40ad1 0.12.2 jhpoelen/dietdatabase Hurlbert, A. H., Olsen, A. M., Sawyer, M. M., and Winner, P. M. 2021. Avian Diet Database. https://doi.org/10.5281/zenodo.5151056 https://github.com/jhpoelen/dietdatabase/archive/225e33758e437c821b2960f14115f74f4dc46c42.zip 2021-10-30T04:00:39.898Z 462b90468d65134d6847d0e6d99c62998beb7fd0c1f0a01c40e76414b1060696 0.12.2 jhpoelen/geosymbio Jorrit H. Poelen. 2015. Summarizing interactions of Symbiodinium after consulting Michele Weber. https://github.com/jhpoelen/geosymbio/archive/a9cb473a202ac656271c04e3ab2b7233cdf5c522.zip 2021-11-13T04:23:15.982Z 0d4b6e5d411e61d120ca113764345ae37dea9b53f454401ebccffefeb48ae933 0.12.2 jhpoelen/magrach2017 Magrach, Ainhoa et al. (2017), Data from: Plant-pollinator networks in semi-natural grasslands are resistant to the loss of pollinators during blooming of mass-flowering crops, Dryad, Dataset, https://doi.org/10.5061/dryad.k0q1n https://github.com/jhpoelen/magrach2017/archive/0a232001a23f11297d31653f58ef7cbdbc799e08.zip 2021-11-13T04:23:43.234Z 7a45f733bb471ce0afc7a71aefef7b4a27499a406f029c9a42d2020d3de083df 0.12.2 jhpoelen/olito2015 Olito, Colin; Fox, Jeremy W. (2015), Data from: Species traits and abundances predict metrics of plant–pollinator network structure, but not pairwise interactions, Dryad, Dataset, https://doi.org/10.5061/dryad.7st32 https://github.com/jhpoelen/olito2015/archive/c10303a46b03a6f0978304e1dd6fc3a8089c7bda.zip 2021-11-13T04:23:51.140Z c0df3678359fb9e6dc25204966b63f4199a9df8195cd4bf934dc0733983b01e6 0.12.2 jhpoelen/pollination_catalogue Giselle Muschett & Francisco E. Fontúrbel. 2021. A comprehensive catalogue of plant – pollinator interactions for Chile https://github.com/jhpoelen/pollination_catalogue/archive/adaaa1d29b58b5766c6c167bb70ff22c8f80265d.zip 2021-11-13T04:23:56.941Z 1f8de7defc49619c75e9b2934cb36a023fa5dc5c338c0a506ba841a20047653d 0.12.2 jhpoelen/portalier2018 Portalier, Sebastien; Fussmann, Gregor; Loreau, Michel; Cherif, Mehdi (2018), Data from: The mechanics of predator-prey interactions: first principles of physics predict predator-prey size ratios, Dryad, Dataset, https://doi.org/10.5061/dryad.8c40mb0 https://github.com/jhpoelen/portalier2018/archive/7278ec1310a66cd65f03d56cdbcc248842cd6cba.zip 2021-11-13T04:24:02.057Z ed6d47203e64733754bc62c2dce37d0d188ef03f71924afba2e299293b87e8bf 0.12.2 jhpoelen/redhead2018 Redhead, J.W.; Coombes, C.F.; Dean, H.J.; Dyer, R.; Oliver, T.H.; Pocock, M.J.O.; Rorke, S.L.; Vanbergen, A.J.; Woodcock, B.A.; Pywell, R.F. (2018). Plant-pollinator interactions database for construction of potential networks. NERC Environmental Information Data Centre. https://doi.org/10.5285/6d8d5cb5-bd54-4da7-903a-15bd4bbd531b https://github.com/jhpoelen/redhead2018/archive/4e55aeb5dddafaf3650e7d740c97ded4ee0d6751.zip 2021-11-13T04:24:09.023Z 9448863fc03c020e10313dac928ae049e4241e52b4c252d7c8d80a7325b40f30 0.12.2 jhpoelen/udy2020 Udy, Kristy; Reininghaus, Hannah; Scherber, Christoph; Tscharntke, Teja (2020), Data from: Plant-pollinator interactions along an urbanization gradient from cities and villages to farmland landscapes, Dryad, Dataset, https://doi.org/10.5061/dryad.4mw6m906s https://github.com/jhpoelen/udy2020/archive/b559db9d2455104a3bce3d50d4c6258654da6818.zip 2021-11-13T04:24:14.106Z 55cfb7eb1fa1c175ed22cb9e5abd0c3e456b6ef3216e0f284821ef311ba7967a 0.12.2 jhpoelen/uredinales-belgium-checklist Vanderweyen, A., & Fraiture, A. (2009). Catalogue des Uredinales de Belgique, 1re partie, Chaconiaceae, Coleosporiaceae, Cronartiaceae, Melampsoraceae, Phragmidiaceae, Pucciniastraceae, Raveneliaceae et Uropyxidaceae. Lejeunia, Revue de Botanique|Vanderweyen, A., & Fraiture, A. (2009). Catalogue des Uredinales de Belgique, 2ème partie, Pucciniaceae (sauf Puccinia)(suite 2). Lejeunia, Revue de Botanique.|Vanderweyen, A., & Fraiture, A. (2012). CATALOGUE DES UREDINALES DE Belgique 3ème partie Pucciniaceae (genre Puccinia). Lejeunia, Revue de Botanique. https://github.com/jhpoelen/uredinales-belgium-checklist/archive/4d452ac12bf20a5d9a8ccd6a87e9fc7984a86bdb.zip 2021-11-13T04:24:19.767Z adc5a5143f4dab2d8f6edd3f2b15bcee283eb8d2c49e12de05af4a73dfe47dd1 0.12.2 jhpoelen/willoughby-etal-2021-bat-co-roosting Anna Willoughby et al. 2021. Bat co-roosting interactions extracted from literature. https://github.com/jhpoelen/willoughby-etal-2021-bat-co-roosting/archive/270ba693de12dc3aa9f0921a81f90f7b47030ed7.zip 2021-11-13T04:24:24.528Z 9e1be8bba634cc3f6c1f06326e0882a0053d0404350363e8000f3475cc625466 0.12.2 karelTole/template-dataset Jorrit H. Poelen. 2014. Species associations manually extracted from literature. https://github.com/karelTole/template-dataset/archive/949abcbe08011c1d9fa53327ad5dc1d6be728a95.zip 2021-11-13T04:24:31.175Z b06d299e95d45f79f2bb14234c1c769b9ec9428a76b6b7b70e372bbef8c5637f 0.12.2 liampshaw/Pathogen-host-range Shaw, LP, Wang, AD, Dylus, D, et al. The phylogenetic range of bacterial and viral pathogens of vertebrates. Mol Ecol. 2020; 29: 3361– 3379. https://doi.org/10.1111/mec.15463 https://github.com/liampshaw/Pathogen-host-range/archive/f4014ed79b1211a63e20fedfae7d42a305f7775e.zip 2021-11-13T04:24:50.897Z 9ba203583352f358b2df82e35a13fd1acb2fd7cab2556c3f75233b14db813aea 0.12.2 mangal-wg/template-dataset Jorrit H. Poelen. 2014. Species associations manually extracted from literature. https://github.com/mangal-wg/template-dataset/archive/8abd2ba18457288f33527193299504015fae6def.zip 2021-10-27T07:48:40.571Z 6bfc17b8717e6e8e478552f12404bc8887d691a155ffd9cd9bfc80cb6747c5d2 0.12.2 millerse/A-Host-parasite-Catalog-of-North-American-Tachinidae-Diptera- Sarah E Miller. 5/28/2015. Arnaud, Paul Henri. A Host-parasite Catalog of North American Tachinidae (Diptera). Washington, D.C.: U.S. Dept. of Agriculture, Science and Education Administration, 1978. https://zenodo.org/record/258186/files/millerse/A-Host-parasite-Catalog-of-North-American-Tachinidae-Diptera--v1.0.zip 2021-11-13T04:25:14.014Z d1d8dd7203b25060c9a42dc20a2b082b9eac5d357565663df86baf7f0b569cce 0.12.2 millerse/Adams-et-al.-2016 Sarah E Miller. 8/25/2016. Text gathered from Adams et al. 2016 A century of Chinook salmon consumption by marine mammal predators in the Northeast Pacific Ocean. https://zenodo.org/record/258193/files/millerse/Adams-et-al.-2016-v1.0.zip 2021-11-13T04:25:05.669Z 8c9881182a178f58eb208aeb6689b110b17a6dd088d9629338113147ab043a95 0.12.2 millerse/Aluja-et-al-New-Host-Plant-and-Distribution-Records-in-Mexico Sarah E. Miller. 04/14/2015. Information extracted from litterature Aluja, Martín and Piñero, Jaime and López, Maurilio and Ruíz, César and Zúñiga, Alberto and Piedra, Enrique and Díaz-Fleischer, Francisco and Sivinski, John. New Host Plant and Distribution Records in Mexico for Anastrepha Spp., Toxotrypana Curvicauda Gerstacker, Rhagoletis Zoqui Bush, Rhagoletis Sp., and Hexachaeta Sp. (Diptera: Tephritidae). Proceedings of the Entomological Society of Washington 102 (2000): 2000. http://www.biodiversitylibrary.org/part/54830. https://github.com/millerse/Aluja-et-al-New-Host-Plant-and-Distribution-Records-in-Mexico/archive/0cf667a092fbf06e549ec4fdfffd7ad874259710.zip 2021-11-13T04:25:18.900Z a660336796b6e789c4bd57f902dd0715fc91393ea15580f9885c59947b482795 0.12.2 millerse/Amphibians-and-Reptiles-Predators-and-Prey.-Amphibians-and-Birds Sarah E Miller. 4/16/2015. Species associations manually extracted from Cook, W. E. Amphibians and Reptiles: Predators and Prey. Amphibians and Birds. Smithsonian Herpetological Information Service: 1-15. https://zenodo.org/record/258194/files/millerse/Amphibians-and-Reptiles-Predators-and-Prey.-Amphibians-and-Birds-v1.0.zip 2021-11-13T04:25:26.519Z 1762a1a625936896a22fa42ab094acb60c73c96a6dc197a3f9069f9d1797b3d0 0.12.2 millerse/Anemonefish Sarah E Miller. 6/17/2015. Species associations manually extracted from datasets https://www.nceas.ucsb.edu/interactionweb/resources.html. https://zenodo.org/record/258196/files/millerse/Anemonefish-v1.0.zip 2021-11-13T04:25:34.343Z fa9a6d260ec5577e38aa56b2172a301eca075e6714882c0a3bbc6685d1f45da4 0.12.2 millerse/Ant-Plant-Interactions Sarah E Miller. 5/25/2017. Species associations extracted from Fernanda V. Costa. 2016. Ant-Plant Interactions in Brazilian Rupestrian Grasslands - Dataset from 2014. urn:node:KNB. doi:10.5063/F19C6VB4. https://zenodo.org/record/800554/files/millerse/Ant-Plant-Interactions-V1.0.zip 2021-11-13T04:25:42.739Z 161e083b66e416c5e87399d92128b4f955820e67880c4bd7346230ddb2636def 0.12.2 millerse/Arctic-food-web Sarah E Miller. 7/7/2016. Text gathered from Wirta, H.K., Vesterinen, E.J., Hambäck, P.A., Weingartner, E., Rasmussen, C., Reneerkens, J., Schmidt, N.M., Gilg, O. and Roslin, T., 2015. Exposing the structure of an Arctic food web. Ecology and evolution, 5(17), pp.3842-3856. https://zenodo.org/record/258202/files/millerse/Arctic-food-web-v1.0.zip 2021-11-13T04:25:52.695Z d0fa4a6f28751d930c02e10f3b90b16d27636d8945a2ed42f0a619ee429aec13 0.12.2 millerse/Arctos Sarah E Miller. 7/6/2016. Arctos collection. https://zenodo.org/record/823590/files/millerse/Arctos-V1.0.zip 2021-11-13T04:26:14.582Z 6b2749c550797ccb0b420ef2693809c4c9641cdb5859a5aba4f109fdbc447b14 0.12.2 millerse/BHL-Interactions Sarah E Miller. 5/21/2015. Text gathered from http://www.biodiversitylibrary.org/ https://zenodo.org/record/258229/files/millerse/BHL-Interactions-v1.0.zip 2021-11-13T04:26:54.554Z 850cb1d0c187f994a7fedbdc56aa32e493fc0bba19c4952c1f9c67d31ef32bd8 0.12.2 millerse/Bald-Eagle-Diet Sarah E Miller. 7/27/2015. Newsome SD, Collins PW, Sharpe P. Foraging ecology of a reintroduced population of breeding Bald Eagles on the Channel Islands, California, USA, inferred from prey remains and stable isotope analysis. The Condor [Internet]. Cooper Ornithological Society; 2015 Jul 22;117(3):396–413. https://zenodo.org/record/258233/files/millerse/Bald-Eagle-Diet-v1.0.zip 2021-11-13T04:26:22.463Z b58efdeaf35f6a4f5ce5e9dddfbfe0c751f1902d0dc079057f2482414b0c3377 0.12.2 millerse/Bascompte-J.-Meli-n-C.J.-and-Sala-E.-2005 Sarah E Miller. 3/31/2015. Species associations extracted from paper Jordi Bascompte, Carlos J. Melián, and Enric Sala Interaction strength combinations and the overfishing of a marine food web PNAS 2005 102: 5443-5447. https://zenodo.org/record/258231/files/millerse/Bascompte-J.-Meli-n-C.J.-and-Sala-E.-2005-v1.0.zip 2021-11-13T04:26:30.889Z 708198e475eeea8cc1ff4f9ba794147e1b7780e79c841e08ee62680496f9e25f 0.12.2 millerse/Bat-flies Sarah E Miller. 9/6/2015. Species associations manually extracted from Obame-Nkoghe, J., Rahola, N., Bourgarel, M., Yangari, P., Prugnolle, F., Maganga, G.D., Leroy, E.M., Fontenille, D., Ayala, D. and Paupy, C., 2016. Bat flies (Diptera: Nycteribiidae and Streblidae) infesting cave-dwelling bats in Gabon: diversity, dynamics and potential role in Polychromophilus melanipherus transmission. Parasites & Vectors, 9(1), p.1. https://zenodo.org/record/258230/files/millerse/Bat-flies-v1.0.zip 2021-11-13T04:26:38.731Z c6e16c301d0ceb5bd1b8174ff537b97957064db66543ea2111822743a0f7c24d 0.12.2 millerse/Benesh-et-al-2017 Sarah E Miller. 9/19/2017. Species associations manually extracted from Benesh, D. P., Lafferty, K. D. and Kuris, A. (2017), A life cycle database for parasitic acanthocephalans, cestodes, and nematodes. Ecology, 98: 882. doi:10.1002/ecy.1680 https://github.com/millerse/Benesh-et-al-2017/archive/9dcd91ac0c04b7b06761d30032d2b93369855fcd.zip 2021-11-13T04:26:44.691Z c07b41d81a0de63e2d6fb03a2ab7e558129fb3f32860050431e7526496624ac0 0.12.2 millerse/Biological-Station-Arthropod-Collection Sarah E. Miller. 07/06/2017. Information extracted from dataset https://www.idigbio.org/portal/recordsets/db4bb0df-8539-4617-ab5f-eb118aa3126b. https://github.com/millerse/Biological-Station-Arthropod-Collection/archive/bb37104860ca553e97430ac3b6f5fce0a7578663.zip 2021-11-13T04:27:00.901Z 0cce96c8183eb0ffbf25f3c8c73a383f469c93113af0548c45c94b8e697196c4 0.12.2 millerse/Bird-Parasite Sarah E Miller. 3/18/2015. Species associations manually extracted from site http://www.burkemuseum.org/ornithology/phenology https://zenodo.org/record/258228/files/millerse/Bird-Parasite-v1.0.zip 2021-11-13T04:27:08.892Z 0c99d2de65498c1df567c478e387785eed814157e41e5eba0c8e8b39bbdba036 0.12.2 millerse/Birds-Consumed-by-the-Invasive-Burmese-Python-Python-molurus-bivittatus- Sarah E. Miller. 04/14/2015. Information extracted from literature Dove, Carla J., Ray W. Snow, Michael R. Rochford, and Frank J. Mazzotti. Birds Consumed By The Invasive Burmese Python (Python Molurus Bivittatus) In Everglades National Park, Florida, USA. The Wilson Journal of Ornithology: 126-31. https://zenodo.org/record/258227/files/millerse/Birds-Consumed-by-the-Invasive-Burmese-Python-Python-molurus-bivittatus--v1.0.zip 2021-11-13T04:27:16.668Z 4b7b18d68efa355489d6e6731335ce3f156a92d89e55daf08d54027b1307a53c 0.12.2 millerse/Buprestidae-of-North-America Sarah E Miller. 06/10/2015. Species associations manually extracted from Chamberlin, W. J. The Buprestidae of North America, Exclusive of Mexico, a Catalogue including Synonomy, Bibliography, Distribution, Type Locality and Hosts of Each Species,. 1926. https://zenodo.org/record/259795/files/millerse/Buprestidae-of-North-America-v1.0.zip 2021-11-13T04:27:27.154Z 8c833bb29fb9acad0218eb861be3d4be3313f54322edbedc5be2c5785b9c27d7 0.12.2 millerse/Canadian-freshwater-fish-and-their-metazoan-parasites Sarah E Miller. 6/18/2015. Species associations manually extracted from datasets https://www.nceas.ucsb.edu/interactionweb/resources.html. https://zenodo.org/record/258226/files/millerse/Canadian-freshwater-fish-and-their-metazoan-parasites-v1.0.zip 2021-11-13T04:27:35.009Z c0c53d9f8951003e8deb5ef177dd00b6d1a082518b6bbaca3a6cd4ef995ccdb7 0.12.2 millerse/Carpinteria-Salt-Marsh-Web Sarah E Miller. 6/19/2015. Species associations manually extracted from datasets https://www.nceas.ucsb.edu/interactionweb/resources.html. https://zenodo.org/record/258225/files/millerse/Carpinteria-Salt-Marsh-Web-v1.0.zip 2021-11-13T04:27:43.161Z d253aceff3bfbe4bea26e8e12d2b21477b7f91f37a20be285ea1c5a988881beb 0.12.2 millerse/Checklist-of-Micro-Organisms-Associated-With-Tree-Seeds-in-the-World Sarah E Miller. 5/23/2017. Species associations manually extracted from Anderson, R. L. (1986). Checklist of micro-organisms associated with tree seeds in the world, 1985. Gen. Tech. Rep. SE-39. Asheville, NC: US Department of Agriculture, Forest Service, Southeastern Forest Experiment Station. 34 p., 39. https://zenodo.org/record/582647/files/millerse/Checklist-of-Micro-Organisms-Associated-With-Tree-Seeds-in-the-World-V1.0.zip 2021-11-13T04:27:52.149Z 6c92631f219b84bb7a3addb2041c45b7d2d036544e3b4994f5aa17dbe0442ca6 0.12.2 millerse/Clements-R.-E.-and-F.-L.-Long Sarah E Miller. 6/22/2015. Species associations manually extracted from datasets https://www.nceas.ucsb.edu/interactionweb/resources.html. https://zenodo.org/record/258223/files/millerse/Clements-R.-E.-and-F.-L.-Long-v1.0.zip 2021-11-13T04:28:00.391Z 1b581de73c337f890f08cd9baa8a44f395242f954ca774d8dbb8b0e2724175e5 0.12.2 millerse/Coccidae-of-Egypt Sarah E Miller. 8/25/2016. Text gathered from Hall, W.J., 1923. Further observations on the Coccidae of Egypt. Ministry of Agriculture, Technical and Scientific Service, Bulletin, (36), pp.1-61. https://zenodo.org/record/259823/files/millerse/Coccidae-of-Egypt-v1.0.zip 2021-11-13T04:28:08.358Z 80dec1687e8f470ef874747df1d2b6913b1d3916993351094bfa973b779418c0 0.12.2 millerse/Dapstrom-integrated-database-and-portal-for-fish-stomach-records Pinnegar, J.K. (2014). DAPSTOM - An Integrated Database & Portal for Fish Stomach Records. Version 4.7. Centre for Environment, Fisheries & Aquaculture Science, Lowestoft, UK. February 2014, 39pp. https://zenodo.org/record/258222/files/millerse/Dapstrom-integrated-database-and-portal-for-fish-stomach-records-v1.0.zip 2021-11-13T04:36:12.857Z 82e40c4b29c05a3c5836b7b8ea6795425cf06ad34060ecd8341bf18ae6113499 0.12.2 millerse/Diseases-of-Coffee-in-Porto-Rico Sarah E Miller. 5/17/2016. Text gathered from Fawcett, George L. Fungus Diseases of Coffee in Porto Rico. 1915. doi:10.5962/bhl.title.37321 https://zenodo.org/record/258221/files/millerse/Diseases-of-Coffee-in-Porto-Rico-v1.0.zip 2021-11-13T04:36:22.003Z dd23d3c49ea2c29241309860bb506e5f62372074cf2bf6dc321505856c2e93aa 0.12.2 millerse/Ecological-Database-of-the-World-s-Insect-Pathogens Sarah E Miller. 12/13/2016. Species associations manually extracted from Onstad, D.W. EDWIP: Ecological Database of the World's Insect Pathogens. Champaign, Illinois: Illinois Natural History Survey, [23/11/2016]. http://insectweb.inhs.uiuc.edu/Pathogens/EDWIP. https://zenodo.org/record/258220/files/millerse/Ecological-Database-of-the-World-s-Insect-Pathogens-v1.0.zip 2021-11-13T04:36:46.276Z 26ff7994d1161456ffb4938f7801c697c6231da5201c4435a2811534bb83ef21 0.12.2 millerse/Feeding-Niches-of-Hummingbirds-in-a-Trinidad-Valley Sarah E Miller. 5/24/2015. Text gathered from Snow, Barbara K., and D. W. Snow. Feeding niches of hummingbirds in a Trinidad valley. The Journal of Animal Ecology (1972): 471-485. https://zenodo.org/record/258219/files/millerse/Feeding-Niches-of-Hummingbirds-in-a-Trinidad-Valley-v1.0.zip 2021-11-13T04:36:54.171Z 973deeea611bbbb6490fdc696589eb5bec037bf2568b40bab7819f1b5618e8be 0.12.2 millerse/Fishes-of-Basrah-Province-Iraq Sarah E Miller. 12/20/2016. Species associations manually extracted from Mhaisen, F.T., Ali, A.H. and Khamees, N.R., Checklists of Protozoans and Myxozoans of Freshwater and Marine Fishes of Basrah Province, Iraq. https://zenodo.org/record/258218/files/millerse/Fishes-of-Basrah-Province-Iraq-v1.0.zip 2021-11-13T04:37:02.511Z 07046537d13c930068d8d8410af206922b9ec106bc2012c8c04aa230173b12ff 0.12.2 millerse/Flea-Collection Sarah E Miller. 7/7/2016. Text gathered from various flea texts. https://zenodo.org/record/258217/files/millerse/Flea-Collection-v1.0.zip 2021-11-13T04:37:10.344Z cec0ce5b171008d73d9637294473b08618d30688f0febf90d102680cb093b610 0.12.2 millerse/Flowers-and-insects-lists-of-visitors-to-four-hundred-and-fifty-three-flowers Sarah E Miller. 6/25/2015. Species associations manually extracted from Robertson, C. 1929. Flowers and insects: lists of visitors to four hundred and fifty-three flowers. Carlinville, IL, USA, C. Robertson. https://zenodo.org/record/258216/files/millerse/Flowers-and-insects-lists-of-visitors-to-four-hundred-and-fifty-three-flowers-v1.0.zip 2021-11-13T04:37:19.516Z ce01d9a2c4dc26fe2d46519011915766d3a03cb857188be592b73adb1aa6bf94 0.12.2 millerse/Fly-parasites Sarah E. Miller. 04/14/2015. Information extracted from litterature Wharton, Robert A, and Paul M Marsh. New World Opiinae (Hymenoptera: Braconidae) Parasitic on Tephritidae (Diptera). Journal of the Washington Academy of Sciences 68 (1978): 21. http://www.biodiversitylibrary.org/part/50699. https://zenodo.org/record/258215/files/millerse/Fly-parasites-v1.0.zip 2021-11-13T04:37:26.954Z e34267ca389cf37c1b363228c370121f7d23d6ff64889aadbd41bf4a725123b0 0.12.2 millerse/Fossil-snake Sarah E Miller. 12/21/2016. Species associations extracted from Smith, K., Scanferla, A. 2016. Fossil snake preserving three trophic levels and evidence for an ontogenetic dietary shifts. Palaeobiodiversity and Palaeoenvironments. doi: 10.1007/s12549-016-0244-1 https://zenodo.org/record/258214/files/millerse/Fossil-snake-v1.0.zip 2021-11-13T04:37:34.872Z 6939c72af97d1942468f2aac1e5f9206f313eaa12463fd8c0f11922fc2df0b33 0.12.2 millerse/Greystock-et-al.-2015 Sarah E Miller. 9/19/2016. Species associations extracted from Graystock, P., Blane, E.J., McFrederick, Q.S., Goulson, D. and Hughes, W.O., 2016. Do managed bees drive parasite spread and emergence in wild bees?. International Journal for Parasitology: Parasites and Wildlife, 5(1), pp.64-75. https://zenodo.org/record/258213/files/millerse/Greystock-et-al.-2015-v1.0.zip 2021-11-13T04:37:52.183Z 68ad013ec2b9db818b9b6a4ab0693b90756f2c09e746f86bf34bc9a55c8e559e 0.12.2 millerse/Host-plant-and-distribution-records Sarah E. Miller. 04/14/2015. Information extracted from litterature Aluja, Martín and Piñero, Jaime and López, Maurilio and Ruíz, César and Zúñiga, Alberto and Piedra, Enrique and Díaz-Fleischer, Francisco and Sivinski, John. New Host Plant and Distribution Records in Mexico for Anastrepha Spp., Toxotrypana Curvicauda Gerstacker, Rhagoletis Zoqui Bush, Rhagoletis Sp., and Hexachaeta Sp. (Diptera: Tephritidae). Proceedings of the Entomological Society of Washington 102 (2000): 2000. http://www.biodiversitylibrary.org/part/54830. https://zenodo.org/record/259822/files/millerse/Host-plant-and-distribution-records-v1.0.zip 2021-11-13T04:38:00.275Z 2a9e01103a173d7518eb3e73681bd0503fc845cb43315d094a03301cd741f180 0.12.2 millerse/Hummingbird-and-Flower-Interactions Sarah E Miller. 6/26/2015. https://www.desertmuseum.org/pollination/hummingbirds.php https://zenodo.org/record/258212/files/millerse/Hummingbird-and-Flower-Interactions-v1.0.zip 2021-11-13T04:38:08.303Z 3b181d03b8adf6e92b38213987050a609957297467cf6496e0bf4b02256077d4 0.12.2 millerse/Insect-Herbivores-on-Goldenrods-Solidago-altissima Sarah E Miller. 3/25/2015. Species associations manually extracted from literature Root R. Insect Herbivores on Goldenrods (Solidago altissima) in the Finger Lakes Region, New York, USA (Dick_Root.7.13) https://zenodo.org/record/258211/files/millerse/Insect-Herbivores-on-Goldenrods-Solidago-altissima-v1.0.zip 2021-11-13T04:38:17.432Z b6ecd6b03fe9cfb9518737e54510f0edec7a400d2bf3e72a4fabf05f0e025345 0.12.2 millerse/Interaction-data-by-SEM Sarah E Miller. 2/4/2015. Species associations manually extracted from literature. https://zenodo.org/record/258210/files/millerse/Interaction-data-by-SEM-v1.0.zip 2021-11-13T04:38:25.360Z 4a7715afe5cd60f6af16c69031b4fabae49e9b52c4c200ce3b0ed200494b3e41 0.12.2 millerse/Jstor-Collecton Sarah E Miller. 9/3/2015. Species associations manually extracted from JSTOR. https://zenodo.org/record/258209/files/millerse/Jstor-Collecton-v1.0.zip 2021-11-13T04:38:33.584Z 997d4ea17196e13240a4bb2e86b6005386380a72d3778ee5188a7559839a4d75 0.12.2 millerse/Lara-C.-2006 Sarah E Miller. 5/24/2016. Text gathered from Lara, C. (2006). Temporal dynamics of flower use by hummingbirds in a highland temperate forest in Mexico. Ecoscience, 13(1), 23-29. https://zenodo.org/record/258208/files/millerse/Lara-C.-2006-v1.0.zip 2021-11-13T04:38:41.521Z 655ccc6f82d2e7a49b00aae019480a5afd68c807f2924351c75c5f8c8e211393 0.12.2 millerse/Lice Sarah E Miller. 06/17/2015. Durden, Lance A., and Guy A. Musser. The Sucking Lice (Insecta, Anoplura) of the World : A Taxonomic Checklist with Records of Mammalian Hosts and Geographical Distributions. Bulletin of the AMNH ; No. 218. New York: American Museum of Natural History, 1994. Web. https://github.com/millerse/Lice/archive/82aaea4eac0281c202bf20b12c5c4d0947e7936a.zip 2021-11-13T04:38:50.407Z 7272a4f2a156de904aaacc9fbe089bf1342f3f9b6df15ab77bf9064f93ac5233 0.12.2 millerse/Lichenous Sarah E Miller. 3/22/2016. Species associations extracted from Lawrey, J. D. & P. Diederich. 2016. Lichenicolous fungi – worldwide checklist, including isolated cultures and sequences available. URL: http://www.lichenicolous.net [1/3/2017]. https://zenodo.org/record/545807/files/millerse/Lichenous-v2.0.0.zip 2021-11-13T04:38:59.103Z 7d0f357bc78ad35fb0b6838053f83708ae7445dfea6cabd33e9db8e0f0d1ef77 0.12.2 millerse/PLANT-SEED-DISPERSER-WEBS Sarah E Miller. 6/20/2015. Species associations manually extracted from datasets https://www.nceas.ucsb.edu/interactionweb/resources.html. https://zenodo.org/record/258200/files/millerse/PLANT-SEED-DISPERSER-WEBS-v1.0.zip 2021-11-13T04:39:58.054Z 4c17c8f3999addf1aa48f2ea51c02e344625509235b040be0364272d2b2878f0 0.12.2 millerse/Plant-Disease-Survey Sarah E Miller. 5/17/2016. Distribution, Symptoms and Control of Some of the More Important Plant Diseases. Beltsville, Md.: Plant Disease Survey, Division of Mycology and Disease Survey, Bureau of Plant Industry, Soils, and Agricultural Engineering, Agricultural Research Administration, United States Department of Agriculture, 1953. https://zenodo.org/record/258204/files/millerse/Plant-Disease-Survey-v1.0.zip 2021-11-13T04:39:32.883Z 8bf948699a7425a8e21634ceea71aa41d9baa36c5333ae57db40d2f2bd52fbfc 0.12.2 millerse/Plant-Herbivore-Web Sarah E Miller. 6/18/2015. Species associations manually extracted from datasets https://www.nceas.ucsb.edu/interactionweb/resources.html. https://zenodo.org/record/258203/files/millerse/Plant-Herbivore-Web-v1.0.zip 2021-11-13T04:39:41.300Z a69ec00c0c005e9a4665abdc0626db53d49d991bd352dc1ee56ecc32d0367b2d 0.12.2 millerse/Plant-Pollinator-Web Sarah E Miller. 6/19/2015. Species associations manually extracted from datasets https://www.nceas.ucsb.edu/interactionweb/resources.html. https://zenodo.org/record/258201/files/millerse/Plant-Pollinator-Web-v1.0.zip 2021-11-13T04:39:50.228Z 9d273944f48cb97d4248182eba0e208c24d4bf6aca4d2d12ba3cba79d97c4871 0.12.2 millerse/Plant-ant-webs Sarah E Miller. 6/18/2015. Species associations manually extracted from datasets https://www.nceas.ucsb.edu/interactionweb/resources.html. https://zenodo.org/record/258205/files/millerse/Plant-ant-webs-v1.0.zip 2021-11-13T04:39:19.948Z 29e3bc178ddaa78fb116e9d17e0268fec750af34ad04d30887de40d13b82e904 0.12.2 millerse/Pollination-Collection Sarah E Miller. 5/30/2016. Interations from various papers. https://zenodo.org/record/258199/files/millerse/Pollination-Collection-v1.0.zip 2021-11-13T04:40:08.103Z 6143bb865cfcd25934277df00b53e636fb8bc9456d0a42df70c44a413047e630 0.12.2 millerse/Seaweed Sarah E Miller. 9/2/2015. Byrnes, Jarrett Edward; Reed, Daniel C; Cardinale, Bradley Joseph; Cavanaugh, Kyle C; Holbrook, Sally J; Schmitt, Russell J (2012-02-27): SBC LTER: Reef: Feeding relationships for kelp forest species. Santa Barbara Coastal LTER; Long Term Ecological Research Network. http://dx.doi.org/10.6073/pasta/0873e69e238051cb67f28f6025f53da3 https://zenodo.org/record/258198/files/millerse/Seaweed-v1.0.zip 2021-11-13T04:40:16.265Z 22da879dc70985701ca679d55352c576e68e57e74fe10d1f41cb0beaf67f4935 0.12.2 millerse/Serengeti Sarah E Miller. 7/27/2015. Baskerville, E.B. et al. (2011) Spatial guilds in the Serengeti food web revealed by a Bayesian group model. PLoS Comp. Biol. 7, e1002321 https://zenodo.org/record/258197/files/millerse/Serengeti-v1.0.zip 2021-11-13T04:40:24.147Z 8b397d0324c13e3168ce9ff3628f0a2e88522735f51328def204df5c10ec34f9 0.12.2 millerse/Seton-1929 Sarah E Miller. 11/5/2015. Interaction gathered from Seton, E.T. (1929) Lives of Game Animals. Doubleday, Doran & Co., Garden City N.Y., 506 pp. https://zenodo.org/record/258192/files/millerse/Seton-1929-v1.0.zip 2021-11-13T04:40:31.922Z 45c861c64e46ff4bb8e3829b3ab16ae1050e264eca44213de425dac3c4d9da2b 0.12.2 millerse/Smithsonian-Repository-Interactions Sarah E Miller. 4/20/2015. Species associations manually extracted from various papers and articles from site https://repository.si.edu https://zenodo.org/record/258191/files/millerse/Smithsonian-Repository-Interactions-v1.0.zip 2021-11-13T04:40:40.091Z ee8e863452b1bd605b043f7a4e787054ea33f68bcd425b9a5aaa606b0fc64f53 0.12.2 millerse/The-Butterflies-of-North-America Sarah E. Miller. 04/14/2015. Extracted from literature Scott, J.A. 1986. The Butterflies of North America. Stanford University Press, Stanford, CA https://zenodo.org/record/258190/files/millerse/The-Butterflies-of-North-America-v1.0.zip 2021-11-13T04:40:48.955Z 93ac8921a76397e8e30df1f863b5177db82aaba335f663488f59d9d3b0455362 0.12.2 millerse/US-National-Parasite-Collection http://invertebrates.si.edu/parasites.htm https://github.com/millerse/US-National-Parasite-Collection/archive/882caeb29eec9409ff980ac75ddbbd31aea9ce0b.zip 2021-11-13T04:41:16.570Z 9b453fb523f7922889845230de74ae34ef06295a6307ef743b0688fa4f6d8f2d 0.12.2 millerse/Wardeh-et-al.-2015 Sarah E Miller. 4/18/2016. Species associations from Wardeh, M. et al. Database of host-pathogen and related species interactions, and their global distribution. Sci. Data 2:150049 doi: 10.1038/sdata.2015.49 (2015) https://zenodo.org/record/258189/files/millerse/Wardeh-et-al.-2015-v1.0.zip 2021-11-13T04:41:38.184Z 29427d1a3d0beb010da30f5f5f9db72efb203fc9947848b5d6b404026b2df011 0.12.2 millerse/Weidinger-et-al.-2009 Sarah E Miller. 3/4/2015. Species associations manually extracted from http://onlinelibrary.wiley.com/doi/10.1111/j.1474-919X.2009.00907.x/suppinfo. https://zenodo.org/record/258188/files/millerse/Weidinger-et-al.-2009-v1.0.zip 2021-11-13T04:41:46.068Z f5a63d4c2f2f0407c5b932c5a6bc7238f8b784294c37ced0a6003ad064828332 0.12.2 millerse/Wenzel-Tipton-Classified-List-of-Hosts-and-Parasites Sarah E Miller. 5/17/2016. Wenzel, Rupert L., and Vernon J. Tipton. Appendix: Classified List of Hosts and Parasites. Chicago, Ill.: Field Museum of Natural History, 1966. https://github.com/millerse/Wenzel-Tipton-Classified-List-of-Hosts-and-Parasites/archive/8eeb5de6e45c97dd4f6e962dcdf5ad65a021c20b.zip 2021-11-13T04:41:51.414Z b57c5d5aee86c4786557f79ab4e23468f242f366de06d8d581a78ad88990564b 0.12.2 millerse/Wharton-and-Marsh-1978.-New-World-Opiinae Sarah E. Miller. 04/14/2015. Information extracted from litterature Wharton, Robert A, and Paul M Marsh. New World Opiinae (Hymenoptera: Braconidae) Parasitic on Tephritidae (Diptera). Journal of the Washington Academy of Sciences 68 (1978): 21. http://www.biodiversitylibrary.org/part/50699. https://github.com/millerse/Wharton-and-Marsh-1978.-New-World-Opiinae/archive/5e6ca4a365cc982805ccad588dc129d4bb230f4e.zip 2021-11-13T04:41:56.772Z 28421efb2c2c662b36bcc5986c3b4eeea04ff47fafe5a83675bd66f170237aff 0.12.2 millerse/Zika-Virus Sarah E Miller. 2/14/2016. Species associations manually extracted from Lanciotti RS, Kosoy OL, Laven JJ, Velez JO, Lambert AJ, Johnson AJ, et al. Genetic and serologic properties of Zika virus associated with an epidemic, Yap State, Micronesia, 2007. Emerg Infect Dis [serial on the Internet]. 2008 Aug [2/14/2016]. Available from http://wwwnc.cdc.gov/eid/article/14/8/08-0287 and Hayes EB. Zika virus outside Africa. Emerg Infect Dis [serial on the Internet]. 2009 Sep [2/14/2016]. Available from http://wwwnc.cdc.gov/eid/article/15/9/09-0442 https://zenodo.org/record/258187/files/millerse/Zika-Virus-v1.0.zip 2021-11-13T04:42:05.213Z 6dffe9939ddded3e4e5e7af16782a61e5aeb4eb10e78ab74e3c8b76a112399ef 0.12.2 millerse/grazers-of-North-American-aquatic-plants Sarah E Miller. 5/16/2016. Harms, N. E., & Grodowitz, M. J. (2009). Insect herbivores of aquatic and wetland plants in the United States: a checklist from literature. Journal of Aquatic Plant Management (JAPM), 47, 73. https://zenodo.org/record/582289/files/millerse/grazers-of-North-American-aquatic-plants-V1.0.zip 2021-11-13T04:37:44.129Z f4390478ab509f8cb4dc35c5db3d14921f3726c30ae552e969907eeaad9478c9 0.12.2 millerse/parasitic-plant-connection Sarah E Miller. 9/15/2016. Species associations extracted from http://parasiticplants.siu.edu/index.html. https://zenodo.org/record/258206/files/millerse/parasitic-plant-connection-v1.0.zip 2021-11-13T04:39:11.667Z 21c4ab208b3293e384b511e57fa88c0524234d72849665ecdcb0f73fc65c636a 0.12.2 ninacourlee/Andromeda-polifolia-fungal-consortia Filippova N. 2021. The fungal consortium of Andromeda polifolia in bog habitats https://zenodo.org/record/5632779/files/ninacourlee/Andromeda-polifolia-fungal-consortia-v1.0.1.zip 2021-11-13T04:42:18.344Z ff4c997a74f0210310ef8107d6c4905fe56308cb1c86d28715bd0789c55400c2 0.12.2 osmiddleton/CarniDIET-Database Middleton, O.S, Svensson, H, Scharlemann, J.P.W, Faurby, S, Sandom, C.J. CarniDIET 1.0: A database of terrestrial carnivorous mammal diets. Global Ecology and Biogeography. https://doi.org/10.1111/geb.13296. https://github.com/osmiddleton/CarniDIET-Database/archive/0301492b944ad1ecf7e17199c96fa99a33d6ef91.zip 2021-11-13T04:42:24.726Z 7ab55e7259d127ad368365baecf25c9504f60317b3e3e03f931ceed462330fb3 0.12.2 pedroj/FRUBASE Jordano, Pedro (2013), Data from: Angiosperm fleshy fruits and seed dispersers: a comparative analysis of adaptation and constraints in plant-animal interactions, Dryad, Dataset, https://doi.org/10.5061/dryad.9tb73 https://github.com/pedroj/FRUBASE/archive/ed685ad34c4bc40221fce273c94bfa3e34e84ddc.zip 2021-11-13T04:42:49.107Z 0e5ac8d4bf52fc5b6d6b3302edcc6dae28bf9a6717b50a6c0223909eb86c1973 0.12.2 pensoft/pensoft-interaction-tables OpenBiodiv. 2020. Annotated biotic interaction tables from Pensoft publications. https://github.com/pensoft/pensoft-interaction-tables/archive/83dd4fa1f4a641bb1f384c41cfe58e5143848279.zip 2021-11-13T04:46:31.889Z 2439adf727deae06bb9adfc9c7705d2c2cb32aa9ce7678b1b6b2f61b13cde3af 0.12.2 qgroom/Sceliphron Jakovos Demetriou and Quentin Groom 2014. Species associations of Sceliphron manually extracted from literature. https://zenodo.org/record/5501760/files/qgroom/Sceliphron-v1.2.zip 2021-11-13T04:47:37.397Z 5c040415d1b66641bd1958f688a5eb3604edfa4d54a17b648c2a1e7a920434ed 0.12.2 qgroom/Vespa-velutina Cristina Preda and Quentin Groom. 2014. Species associations manually extracted from literature. https://zenodo.org/record/5501763/files/qgroom/Vespa-velutina-v1.0.zip 2021-11-13T04:47:50.361Z 8a6265113d21d091d5272b5e42ffd190cc7639b0938e6c6e56b5c9d8fe0b75c8 0.12.2 qgroom/bat-co-roosting-database Aja Sherman, Cullen Geiselman. 2021. Bat Co-Roosting Database https://github.com/qgroom/bat-co-roosting-database/archive/4d10e1fdaaee1586787e6774350648786edcf333.zip 2021-11-13T04:47:13.942Z 8b0a129c807b6983292e7a028923ca67de716c61ead54d94c4648e4bb5c6fb06 0.12.2 qgroom/batinterations Quentin J. Groom. 2020. Bat interation data manually extracted from literature. https://zenodo.org/record/3816676/files/qgroom/batinterations-v1.0.1.zip 2021-11-13T04:47:24.651Z eaa9696146c88345cfeb11b910f56e99c3795cd3adfad25761563c723fa3f60a 0.12.2 qgroom/bedbugs Balvín, O., Munclinger, P., Kratochvíl, L., & Vilímová, J. (2012). Mitochondrial DNA and morphology show independent evolutionary histories of bedbug Cimex lectularius (Heteroptera: Cimicidae) on bats and humans. Parasitology Research, 111(1), 457-469. https://github.com/qgroom/bedbugs/archive/08dc6f22358670f7644f29f20419fa57846cceb5.zip 2021-11-13T04:47:29.224Z aad4ba6d8197a54708366d6c5ba6b72ec222b412a29d2940a028798416d90f7e 0.12.2 qgroom/template-dataset Jorrit H. Poelen. 2014. Species associations manually extracted from literature. https://github.com/qgroom/template-dataset/archive/1beba309127b8b346fb07cd4c2184cbd1269c5e8.zip 2021-11-13T04:47:42.337Z 362921e5a372e62c5794cc4edda36ad2949bcd1e5ecb42f2b6498408b63cbb23 0.12.2 ramalok/PIDA Bjorbækmo, M. F. M., Evenstad, A., Røsæg, L. L., Krabberød, A. K., Logares, R. (2019) The planktonic protist interactome: emerging trends after a century of research. doi: https://doi.org/10.1101/587352 https://github.com/ramalok/PIDA/archive/aae636f5c73830e5f0687382e938e359fb20f693.zip 2021-11-13T04:47:55.050Z d43dcc414ddb4cb3522fba37c0fc9269030f0ad8f183b9b909c10c2fbf6bc58f 0.12.2 rnbehm/bee-interaction-database Seltmann, Katja C. 2020. Biotic species interactions about bees (Anthophila) manually extracted from literature. https://github.com/rnbehm/bee-interaction-database/archive/a72d9871749aa17d34f0c10a71afff75b8bb0460.zip 2021-11-13T04:48:00.496Z 8c25c512302c693e56f235b43840244340747dd78d860001143c0545f42bcbd4 0.12.2 seltmann/ParasiteTracker-Globi Jennifer Zaspel. 2018. Biotic species interactions manually extracted from literature. https://github.com/seltmann/ParasiteTracker-Globi/archive/ba5104744d9ddc69e7f2205202f9c7bfb18a5b0b.zip 2021-11-13T04:48:10.609Z 892da25516fef71a86914dddfa4d42fafea073fc86750d4139d778c3d34efe8b 0.12.2 seltmann/bee-interaction-database Seltmann, Katja C. 2020. Biotic species interactions about bees (Anthophila) manually extracted from literature. https://github.com/seltmann/bee-interaction-database/archive/998a5853c2bec2b3950bd9857bfe79687db21f6d.zip 2021-11-13T04:48:05.646Z 39882a0df1ea9154edafd17546a86cac6b5584ea347d7d85eb08f6a2fee4d2a7 0.12.2 seltmann/template-dataset Jennifer Zaspel. 2018. Biotic species interactions manually extracted from literature. https://github.com/seltmann/template-dataset/archive/ba5104744d9ddc69e7f2205202f9c7bfb18a5b0b.zip 2021-11-13T04:48:15.195Z 892da25516fef71a86914dddfa4d42fafea073fc86750d4139d778c3d34efe8b 0.12.2 seltmann/vampire-moth-globi Jennifer Zaspel. 2018. Biotic species interactions manually extracted from literature. https://github.com/seltmann/vampire-moth-globi/archive/ba5104744d9ddc69e7f2205202f9c7bfb18a5b0b.zip 2021-11-13T04:48:19.792Z 892da25516fef71a86914dddfa4d42fafea073fc86750d4139d778c3d34efe8b 0.12.2 seltmann/vampire-moths-and-their-fruit-piercing-relatives Jennifer Zaspel. 2018. Biotic species interactions manually extracted from literature. https://github.com/seltmann/vampire-moths-and-their-fruit-piercing-relatives/archive/bc1f53d113da3d20d58f5dc423690dccf1a19d0e.zip 2021-11-13T04:48:24.671Z 94031ccd6a7bc41ef24825a07e9b6e25fdf639ebbfc5a5243394b2e3f9571591 0.12.2 taddallas/EDWIP Failed inoculations indexed from negative.csv of Onstad, D.W. EDWIP: Ecological Database of the World's Insect Pathogens. Data provided by Onstad and transcribed by Tad Dallas . https://github.com/taddallas/EDWIP/archive/27e4887c11de34ea1f7ef19082be1d8bc7d66487.zip 2021-11-13T04:48:33.737Z 80e2eb6849446807e1b3981fe4557ac9f65e4b66be2f8d56e9724b7f54bd143a 0.12.2 thebateslab/mycoportal Jorrit H. Poelen. 2014. Species associations manually extracted from literature. https://github.com/thebateslab/mycoportal/archive/a6ba746e37a069986427c78b285b15514e90e18a.zip 2021-11-13T04:49:01.846Z 465c9496c1b83be1a63aa62616e059138667d0fc9f311df7f16ab9dc25234fb8 0.12.2 tkarim/paleo-interactions-test Jorrit H. Poelen. 2014. Species associations manually extracted from literature. https://github.com/tkarim/paleo-interactions-test/archive/5c20a5dd2535433e63560ac682eb98cba2738051.zip 2021-11-13T04:49:06.978Z fdc4f6778f26b13b59a5aef56bace2e6e565d6f9a5d6a43234342883e23835d4 0.12.2 tkuhn/template-dataset Jorrit H. Poelen. 2014. Species associations manually extracted from literature. https://github.com/tkuhn/template-dataset/archive/5b617f69987124eb8b2a40d3917aac128070d53c.zip 2021-11-13T04:49:11.799Z b0532538ea26ee1ddc6b313e8c023cd5574cb1e389f2d2878b75bd523e26510a 0.12.2 trias-project/eu-species-of-concern-interactions Quentin J. Groom. 2020. Species interactions of species on the List of invasive alien species of Union concern https://github.com/trias-project/eu-species-of-concern-interactions/archive/462cab89adb83000313a53f96795feffdd6a54a2.zip 2021-11-13T04:49:16.990Z 1bc4af580547545a8c09a82e7e1f7ff39e5cfdb4546afef9fd84198fc031eaef 0.12.2 zedomel/ballantyne2015 Ballantyne, Gavin; Baldock, Katherine C. R.; Willmer, Pat G. (2015), Data from: Constructing more informative plant-pollinator networks: visitation and pollen deposition networks in a heathland plant community, Dryad, Dataset, https://doi.org/10.5061/dryad.17pp3 https://github.com/zedomel/ballantyne2015/archive/1f266ae725eca68cfb1e32e7e528357ce139848a.zip 2021-11-13T04:50:35.230Z 485b340ee3d2abdc55c49786c17532a9da326f72d730b5249ba38e13abe5ef56 0.12.2 zedomel/bartomeus2008 Bartomeus, Ignasi (2013): Plant-Pollinator Network Data. figshare. Dataset. https://doi.org/10.6084/m9.figshare.154863.v1 https://github.com/zedomel/bartomeus2008/archive/eec4b05674efb0805a0222430d01f895e05767e8.zip 2021-11-13T04:50:42.207Z 782c9183380036178bce804511f1c5ec411872af8a75d8862046ed18ec0756ce 0.12.2 zedomel/caradonna2020 CaraDonna, P.J. 2020. Temporal variation in plant-pollinator interactions, Rocky Mountain Biological Laboratory, CO, USA, 2013 - 2015 ver 1. Environmental Data Initiative. https://doi.org/10.6073/pasta/27dc02fe1655e3896f20326fed5cb95f (Accessed 2021-04-16). https://github.com/zedomel/caradonna2020/archive/0581d5863c5a607d7fbbb446f6d581c2dcb19f33.zip 2021-11-13T04:50:47.380Z 5301b3caf310193185d72b2cff71c84c299e3c7be81e40b909330446fff4b88b 0.12.2 zedomel/magrach2017 Magrach, Ainhoa et al. (2017), Data from: Plant-pollinator networks in semi-natural grasslands are resistant to the loss of pollinators during blooming of mass-flowering crops, Dryad, Dataset, https://doi.org/10.5061/dryad.k0q1n https://github.com/zedomel/magrach2017/archive/0a232001a23f11297d31653f58ef7cbdbc799e08.zip 2021-11-13T04:50:54.615Z 7a45f733bb471ce0afc7a71aefef7b4a27499a406f029c9a42d2020d3de083df 0.12.2 zedomel/olito2015 Olito, Colin; Fox, Jeremy W. (2015), Data from: Species traits and abundances predict metrics of plant–pollinator network structure, but not pairwise interactions, Dryad, Dataset, https://doi.org/10.5061/dryad.7st32 https://github.com/zedomel/olito2015/archive/dde6fe0d26220a466c068d8a3a97108b130585ba.zip 2021-11-13T04:51:02.356Z 8a9c96ede06b8014a456688314bd0a1b7bf05b4d487141a9551694ed2c7964a2 0.12.2 zedomel/portalier2018 Portalier, Sebastien; Fussmann, Gregor; Loreau, Michel; Cherif, Mehdi (2018), Data from: The mechanics of predator-prey interactions: first principles of physics predict predator-prey size ratios, Dryad, Dataset, https://doi.org/10.5061/dryad.8c40mb0 https://github.com/zedomel/portalier2018/archive/9efb19c56ed01f185e87bfd2463538397426d208.zip 2021-11-13T04:51:07.532Z 614efd0406342196059278b81e09a4bb9ca920d5e3d1e6027571bf7985db314d 0.12.2 zedomel/redhead2018 Redhead, J.W.; Coombes, C.F.; Dean, H.J.; Dyer, R.; Oliver, T.H.; Pocock, M.J.O.; Rorke, S.L.; Vanbergen, A.J.; Woodcock, B.A.; Pywell, R.F. (2018). Plant-pollinator interactions database for construction of potential networks. NERC Environmental Information Data Centre. https://doi.org/10.5285/6d8d5cb5-bd54-4da7-903a-15bd4bbd531b https://github.com/zedomel/redhead2018/archive/89ca7296078cce01a293813e509700d6c05faabc.zip 2021-11-13T04:51:16.706Z 1c7ea5a4d2cf7d51718723adaa2e36e0d936518921b7db8c02988cc37cacaa5c 0.12.2 zedomel/udy2020 Udy, Kristy; Reininghaus, Hannah; Scherber, Christoph; Tscharntke, Teja (2020), Data from: Plant-pollinator interactions along an urbanization gradient from cities and villages to farmland landscapes, Dryad, Dataset, https://doi.org/10.5061/dryad.4mw6m906s https://github.com/zedomel/udy2020/archive/beb0381fd18b562bf3c4fa609920aee03dda3f90.zip 2021-11-13T04:51:22.110Z daa10b37c0a9ab3df5549b33d247897fcf1ba813af41968bb4a424341dec64a7 0.12.2 (content ids truncated, please see attached README)