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Mobilizing New England Vascular Plant Specimen Data: Difference between revisions
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Mobilizing New England Vascular Plant Specimen Data (view source)
Revision as of 14:18, 19 September 2019
, 19 September 2019→Publications
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=== Publications === | === Publications === | ||
Daru, B.H., Park, D.S., Primack, R., Willis, C.G., Barrington, D.S., Whitfeld, T.J., Seidler, T.G., Sweeney, P.W., Foster, D.R., Ellison, A.M. and Davis, C.C., (2017). Widespread sampling biases in herbaria revealed from large-scale digitization. bioRxiv, p.165480.<br> | Daru, B.H., Park, D.S., Primack, R., Willis, C.G., Barrington, D.S., Whitfeld, T.J., Seidler, T.G., Sweeney, P.W., Foster, D.R., Ellison, A.M. and Davis, C.C., (2017). Widespread sampling biases in herbaria revealed from large-scale digitization. bioRxiv, p.165480.<br> | ||
Davis, C. C., Willis, C. G., Connolly, B., Kelly, C., & Ellison, A. M. (2015). Herbarium records are reliable sources of phenological change driven by climate and provide novel insights into species’ phenological cueing mechanisms. American Journal of Botany, 102(10), 1599-1609.doi:10.3732/ajb.1500237<br> | |||
Ellwood, E. R., Kimberly, P., Guralnick, R., Flemons, P., Love, K., Ellis, S., ... & Costello, R. (2018). Worldwide Engagement for Digitizing Biocollections (WeDigBio): The Biocollections Community's Citizen-Science Space on the Calendar. BioScience, 68. doi:10.1093/biosci/bix143<br> | Ellwood, E. R., Kimberly, P., Guralnick, R., Flemons, P., Love, K., Ellis, S., ... & Costello, R. (2018). Worldwide Engagement for Digitizing Biocollections (WeDigBio): The Biocollections Community's Citizen-Science Space on the Calendar. BioScience, 68. doi:10.1093/biosci/bix143<br> | ||
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Nelson, G., Sweeney, P. and Gilbert, E.(2018). Use of globally unique identifiers (GUIDs) to link herbarium specimen records to physical specimens,Applications in Plant Sciences, 6, e1027. doi:10.1002/aps3.1027<br> | Nelson, G., Sweeney, P. and Gilbert, E.(2018). Use of globally unique identifiers (GUIDs) to link herbarium specimen records to physical specimens,Applications in Plant Sciences, 6, e1027. doi:10.1002/aps3.1027<br> | ||
Nelson, G., Sweeney, P., Wallace, L.E., Rabeler, R.K., Allard, D., Brown, H., Carter, J.R., Denslow, M.W., Ellwood, E.R., Germain-Aubrey, C.C., Gilbert, E.P., Gillespie, E., Goertzen, L.R., Legler, B., Marchant, D.B., Marsico, T.D., Morris, A.B., | Nelson, G., Sweeney, P., Wallace, L.E., Rabeler, R.K., Allard, D., Brown, H., Carter, J.R., Denslow, M.W., Ellwood, E.R., Germain-Aubrey, C.C., Gilbert, E.P., Gillespie, E., Goertzen, L.R., Legler, B., Marchant, D.B., Marsico, T.D., Morris, A.B., Murrell, Z., Nazaire, M., Neefus, C., Oberreiter, S., Paul, D., Ruhfel, B.R., Sasek, T., Shaw, J., Soltis, P. Watson, K., Weeks A., & Mast, A.R. (2015). Digitization workflows for flat sheets and packets of plants, algae, and fungi Applications in Plant Sciences, doi:10.3732/apps.1500065<br> | ||
Schorn, C., Weber, E., Bernardos, R., Hopkins, C., & Davis, C. (2016). The New England Vascular Plants Project: 295,000 specimens and counting. Rhodora, 118(975), 324.https://doi.org/10.3119/15-34 | |||
Sweeney, P. and Gilbert, E. (2017). Documenting Reproductive Phenology using Herbarium Specimens: Experiences from the New England Vascular Plants Project Biodiversity Information Science and Standards, v.1, p. e20430. doi:10.3897/tdwgproceedings.1.20430<br> | Sweeney, P. and Gilbert, E. (2017). Documenting Reproductive Phenology using Herbarium Specimens: Experiences from the New England Vascular Plants Project Biodiversity Information Science and Standards, v.1, p. e20430. doi:10.3897/tdwgproceedings.1.20430<br> | ||