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Effectively and accurately mapping global biodiversity patterns for different regions and taxa
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  • Alice Hughes,
  • Michael Orr,
  • Qinmin Yang,
  • Huije Qiao
Alice Hughes
Xishuangbanna Tropical Botanical Garden

Corresponding Author:[email protected]

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Michael Orr
Institute of Zoology Chinese Academy of Sciences
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Qinmin Yang
Zhejiang University
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Huije Qiao
Institute of Zoology Chinese Academy of Sciences
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Understanding patterns of biodiversity is crucial for developing appropriate conservation and management plans. The IUCN RedList is looked upon as a source of globally-consistent assessment of species extinction risk, including range maps as part of the extinction risk assessment. Species ranges are a central criterion in determining extinction vulnerability, and consequently apportioning conservation and research efforts. Thus, the accuracy of these maps is crucial to the effective conservation of global biodiversity. Given difficulties in acquiring sufficient, reliable point data and the need for species or diversity maps within many studies, countless papers rely on these centralized expert range maps. However, such efforts are vulnerable to errors if not carefully checked, and the drive to assess as many species as possible rather than to ensure meaningful quality assessment may drive high error rates, with huge implications for species conservation. Recent efforts to account for the over-generalization of species ranges by trimming species ranges with landcover and elevation also makes a number of assumptions on the consistency and accuracy of global data, the lack of politically-driven biases. Here, we analyse the biases present in 50768 animal IUCN and BirdLife maps and provide suggestions on how such analyses could be improved, and flag spatial and taxonomic inconsistencies to enable analysis to acknowledge the limitations of data in further analysis based on these maps. We also discuss effective ways to overcome these biases, the limits of such applications and explore alternative means of mapping diversity patterns.
22 Apr 2021Published in Global Ecology and Biogeography. 10.1111/geb.13304