Predicting and mitigating future biodiversity loss using long-term ecological proxies
Date
2016
Authors
Fordham, D.
Akçakaya, H.
Alroy, J.
Saltré, F.
Wigley, T.
Brook, B.
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Journal article
Citation
Nature Climate Change, 2016; 6(10):909-916
Statement of Responsibility
Damien A. Fordham, H. Resit Akçakaya, John Alroy, Frédérik Saltré, Tom M. L. Wigley and Barry W. Brook
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Abstract
Uses of long-term ecological proxies in strategies for mitigating future biodiversity loss are too limited in scope. Recent advances in geochronological dating, palaeoclimate reconstructions and molecular techniques for inferring population dynamics offer exciting new prospects for using retrospective knowledge to better forecast and manage ecological outcomes in the face of global change. Opportunities include using fossils, genes and computational models to identify ecological traits that caused species to be differentially prone to regional and range-wide extinction, test if threatened-species assessment approaches work and locate habitats that support stable ecosystems in the face of shifting climates. These long-term retrospective analyses will improve efforts to predict the likely effects of future climate and other environmental change on biodiversity, and target conservation management resources most effectively.
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© 2016 Macmillan Publishers Limited, part of Springer Nature. All rights reserved.