Authors
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Nadia Bystriakova, View ORCID ProfilePablo Alvarez Hendrigo De Melo, View ORCID ProfileAlexandre Antonelli, View ORCID ProfileSteven Bachman, View ORCID ProfileGemma Bramley, View ORCID ProfileMatilda Brown, View ORCID ProfileGloria Cespedes, View ORCID ProfileMartin Cheek, View ORCID ProfileIain Darbyshire, View ORCID ProfileSebsebe Demissew, View ORCID ProfileJuana DeEgea, View ORCID ProfileAndre Erst, View ORCID ProfileFelix Forest, View ORCID ProfileIb Friis, View ORCID ProfileLong-Fei Fu, View ORCID ProfileAlfredo Fuentes, View ORCID ProfileRajib Gogoi, View ORCID ProfileLaura Jennings, View ORCID ProfileCarel C.H. Jongkind, View ORCID ProfileBente Klitgaard, View ORCID ProfileIsabel Larridon, View ORCID ProfileEve Lucas, View ORCID ProfileCarla Maldonado, View ORCID ProfileMaira Martinez, View ORCID ProfileJustin Moat, View ORCID ProfileEimear Nic Lughadha, View ORCID ProfileCarlos Reynel, View ORCID ProfileHimmah Rustiami, View ORCID ProfileDaniel Santamaria Aguilar, View ORCID ProfileSebastian Tello, View ORCID ProfileLiam Trethowan, View ORCID ProfileTimothy M.A. Utteridge, View ORCID ProfileBat (Maria) Vorontsova, View ORCID ProfileYi-Gang Wei, View ORCID ProfileTom Wells, View ORCID ProfileAlexandre K. Monro
Author
Keywords:
Global Biodiversity, Framework, occurrence data
Abstract
Aim Effective implementation of the Global Biodiversity Framework and Global Strategy for Plant Conservation depends on accurate species distribution data. Current vascular plant distribution data, while crucial for understanding terrestrial ecosystems, is often sparse and biased and requires significant expansion. This study developed a scalable approach to prioritize areas for plant occurrence data acquisition, adaptable to national priorities and providing a framework for botanical institutions to coordinate efforts and allocate resources.
