The geography of biodiversity change in marine and terrestrial assemblages

Shane A. Blowes; Sarah R. Supp; Laura H. Antão; Amanda E. Bates; Helge Bruelheide; Jonathan M. Chase; Faye Moyes; Anne E. Magurran; Brian J. McGill; Isla H. Myers‐Smith; Marten Winter; Anne D. Bjorkman; Diana E. Bowler; Jarrett E. K. Byrnes; Andrew Gonzalez; Jes Hines; Forest Isbell; Holly P. Jones; Laetitia M. Navarro; Patrick L. Thompson; Mark Vellend; Conor Waldock; María Dornelas

doi:10.1126/science.aaw1620

The geography of biodiversity change in marine and terrestrial assemblages

Shane A. Blowes(German Centre for Integrative Biodiversity Research), Sarah R. Supp(Denison University), Laura H. Antão(University of Helsinki), Amanda E. Bates(Memorial University of Newfoundland), Helge Bruelheide(German Centre for Integrative Biodiversity Research), Jonathan M. Chase(German Centre for Integrative Biodiversity Research), Faye Moyes(University of St Andrews), Anne E. Magurran(University of St Andrews), Brian J. McGill(University of Maine), Isla H. Myers‐Smith(University of Edinburgh), Marten Winter(German Centre for Integrative Biodiversity Research), Anne D. Bjorkman(Senckenberg - Leibniz Institution for Biodiversity and Earth System Research), Diana E. Bowler(German Centre for Integrative Biodiversity Research), Jarrett E. K. Byrnes(University of Massachusetts Boston), Andrew Gonzalez(McGill University), Jes Hines(German Centre for Integrative Biodiversity Research), Forest Isbell(University of Minnesota), Holly P. Jones(Northern Illinois University), Laetitia M. Navarro(German Centre for Integrative Biodiversity Research), Patrick L. Thompson(University of British Columbia), Mark Vellend(Université de Sherbrooke), Conor Waldock(National Oceanography Centre), María Dornelas(University of St Andrews)

Science

October 17, 2019

10.1126/science.aaw1620

Cited by 646Open Access

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Abstract

Spatial structure of species change Biodiversity is undergoing rapid change driven by climate change and other human influences. Blowes et al. analyze the global patterns in temporal change in biodiversity using a large quantity of time-series data from different regions (see the Perspective by Eriksson and Hillebrand). Their findings reveal clear spatial patterns in richness and composition change, where marine taxa exhibit the highest rates of change. The marine tropics, in particular, emerge as hotspots of species richness losses. Given that human activities are affecting biodiversity in magnitudes and directions that differ across the planet, these findings will provide a much needed biogeographic understanding of biodiversity change that can help inform conservation prioritization. Science , this issue p. 339 ; see also p. 308

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