Global effects of land use on local terrestrial biodiversity

被引:0
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作者
Tim Newbold
Lawrence N. Hudson
Samantha L. L. Hill
Sara Contu
Igor Lysenko
Rebecca A. Senior
Luca Börger
Dominic J. Bennett
Argyrios Choimes
Ben Collen
Julie Day
Adriana De Palma
Sandra Díaz
Susy Echeverria-Londoño
Melanie J. Edgar
Anat Feldman
Morgan Garon
Michelle L. K. Harrison
Tamera Alhusseini
Daniel J. Ingram
Yuval Itescu
Jens Kattge
Victoria Kemp
Lucinda Kirkpatrick
Michael Kleyer
David Laginha Pinto Correia
Callum D. Martin
Shai Meiri
Maria Novosolov
Yuan Pan
Helen R. P. Phillips
Drew W. Purves
Alexandra Robinson
Jake Simpson
Sean L. Tuck
Evan Weiher
Hannah J. White
Robert M. Ewers
Georgina M. Mace
Jörn P. W. Scharlemann
Andy Purvis
机构
[1] United Nations Environment Programme World Conservation Monitoring Centre,Department of Life Sciences
[2] Computational Science Laboratory,Department of Life Sciences
[3] Microsoft Research Cambridge,Department of Biosciences
[4] Natural History Museum,Department of Genetics
[5] Imperial College London,Department of Plant Sciences
[6] College of Science,Biology Department
[7] Swansea University,undefined
[8] Evolution and Environment,undefined
[9] Centre for Biodiversity and Environment Research,undefined
[10] University College London,undefined
[11] Instituto Multidisciplinario de Biología Vegetal (CONICET-UNC) and FCEFyN,undefined
[12] Universidad Nacional de Córdoba,undefined
[13] Deptartment of Zoology,undefined
[14] Faculty of Life Sciences,undefined
[15] Tel-Aviv University,undefined
[16] Max Planck Institute for Biogeochemistry,undefined
[17] German Centre for Integrative Biodiversity Research (iDiv) Halle-Jena-Leipzig,undefined
[18] Landscape Ecology Group,undefined
[19] Institute of Biology and Environmental Sciences,undefined
[20] University of Oldenburg,undefined
[21] University of Oxford,undefined
[22] University of Wisconsin–Eau Claire,undefined
[23] School of Life Sciences,undefined
[24] University of Sussex,undefined
[25] †Present addresses: Department of Animal and Plant Sciences,undefined
[26] University of Sheffield,undefined
[27] Alfred Denny Building,undefined
[28] Western Bank,undefined
[29] Sheffield S10 2TN,undefined
[30] UK (R.A.S.); Department of Earth Science and Engineering,undefined
[31] Imperial College London,undefined
[32] London SW7 2AZ,undefined
[33] UK and Institute of Zoology,undefined
[34] Zoological Society of London,undefined
[35] London NW1 4RY,undefined
[36] UK (D.B.); College of Life and Environmental Sciences,undefined
[37] Hatherly Laboratories,undefined
[38] University of Exeter,undefined
[39] Prince of Wales Road,undefined
[40] Exeter EX4 4PS,undefined
[41] UK (J.D.); School of Life Sciences,undefined
[42] University of Sussex,undefined
[43] Brighton BN1 9QG,undefined
[44] UK (D.J.I.); School of Biological and Ecological Sciences,undefined
[45] University of Stirling,undefined
[46] Stirling FK9 4LA,undefined
[47] UK (L.K.); School of Biological Sciences,undefined
[48] Queen's University Belfast,undefined
[49] 97 Lisburn Road,undefined
[50] Belfast BT9 7BL,undefined
来源
Nature | 2015年 / 520卷
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摘要
Human activities, especially conversion and degradation of habitats, are causing global biodiversity declines. How local ecological assemblages are responding is less clear—a concern given their importance for many ecosystem functions and services. We analysed a terrestrial assemblage database of unprecedented geographic and taxonomic coverage to quantify local biodiversity responses to land use and related changes. Here we show that in the worst-affected habitats, these pressures reduce within-sample species richness by an average of 76.5%, total abundance by 39.5% and rarefaction-based richness by 40.3%. We estimate that, globally, these pressures have already slightly reduced average within-sample richness (by 13.6%), total abundance (10.7%) and rarefaction-based richness (8.1%), with changes showing marked spatial variation. Rapid further losses are predicted under a business-as-usual land-use scenario; within-sample richness is projected to fall by a further 3.4% globally by 2100, with losses concentrated in biodiverse but economically poor countries. Strong mitigation can deliver much more positive biodiversity changes (up to a 1.9% average increase) that are less strongly related to countries' socioeconomic status.
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页码:45 / 50
页数:5
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