TY - JOUR
T1 - Land-use intensification causes multitrophic homogenization of grassland communities
AU - Gossner, Martin M.
AU - Lewinsohn, Thomas M.
AU - Kahl, Tiemo
AU - Grassein, Fabrice
AU - Boch, Steffen
AU - Prati, Daniel
AU - Birkhofer, Klaus
AU - Renner, Swen C.
AU - Sikorski, Johannes
AU - Wubet, Tesfaye
AU - Arndt, Hartmut
AU - Baumgartner, Vanessa
AU - Blaser, Stefan
AU - Blüthgen, Nico
AU - Börschig, Carmen
AU - Buscot, Francois
AU - DIekötter, Tim
AU - Jorge, Leonardo Ré
AU - Jung, Kirsten
AU - Keyel, Alexander C.
AU - Klein, Alexandra Maria
AU - Klemmer, Sandra
AU - Krauss, Jochen
AU - Lange, Markus
AU - Müller, Jörg
AU - Overmann, Jörg
AU - Pašali, Esther
AU - Penone, Caterina
AU - Perovic, David J.
AU - Purschke, Oliver
AU - Schall, Peter
AU - Socher, Stephanie A.
AU - Sonnemann, Ilja
AU - Tschapka, Marco
AU - Tscharntke, Teja
AU - Türke, Manfred
AU - Venter, Paul Christiaan
AU - Weiner, Christiane N.
AU - Werner, Michael
AU - Wolters, Volkmar
AU - Wurst, Susanne
AU - Westphal, Catrin
AU - Fischer, Markus
AU - Weisser, Wolfgang W.
AU - Allan, Eric
N1 - Publisher Copyright:
© 2016 Macmillan Publishers Limited. All rights reserved.
PY - 2016/12/8
Y1 - 2016/12/8
N2 - Land-use intensification is a major driver of biodiversity loss. Alongside reductions in local species diversity, biotic homogenization at larger spatial scales is of great concern for conservation. Biotic homogenization means a decrease in β-diversity (the compositional dissimilarity between sites). Most studies have investigated losses in local (α)-diversity and neglected biodiversity loss at larger spatial scales. Studies addressing β-diversity have focused on single or a few organism groups (for example, ref. 4), and it is thus unknown whether land-use intensification homogenizes communities at different trophic levels, above- A nd belowground. Here we show that even moderate increases in local land-use intensity (LUI) cause biotic homogenization across microbial, plant and animal groups, both above- A nd belowground, and that this is largely independent of changes in α-diversity. We analysed a unique grassland biodiversity dataset, with abundances of more than 4,000 species belonging to 12 trophic groups. LUI, and, in particular, high mowing intensity, had consistent effects on β-diversity across groups, causing a homogenization of soil microbial, fungal pathogen, plant and arthropod communities. These effects were nonlinear and the strongest declines in β-diversity occurred in the transition from extensively managed to intermediate intensity grassland. LUI tended to reduce local α-diversity in aboveground groups, whereas the α-diversity increased in belowground groups. Correlations between the β-diversity of different groups, particularly between plants and their consumers, became weaker at high LUI. This suggests a loss of specialist species and is further evidence for biotic homogenization. The consistently negative effects of LUI on landscape-scale biodiversity underscore the high value of extensively managed grasslands for conserving multitrophic biodiversity and ecosystem service provision. Indeed, biotic homogenization rather than local diversity loss could prove to be the most substantial consequence of land-use intensification.
AB - Land-use intensification is a major driver of biodiversity loss. Alongside reductions in local species diversity, biotic homogenization at larger spatial scales is of great concern for conservation. Biotic homogenization means a decrease in β-diversity (the compositional dissimilarity between sites). Most studies have investigated losses in local (α)-diversity and neglected biodiversity loss at larger spatial scales. Studies addressing β-diversity have focused on single or a few organism groups (for example, ref. 4), and it is thus unknown whether land-use intensification homogenizes communities at different trophic levels, above- A nd belowground. Here we show that even moderate increases in local land-use intensity (LUI) cause biotic homogenization across microbial, plant and animal groups, both above- A nd belowground, and that this is largely independent of changes in α-diversity. We analysed a unique grassland biodiversity dataset, with abundances of more than 4,000 species belonging to 12 trophic groups. LUI, and, in particular, high mowing intensity, had consistent effects on β-diversity across groups, causing a homogenization of soil microbial, fungal pathogen, plant and arthropod communities. These effects were nonlinear and the strongest declines in β-diversity occurred in the transition from extensively managed to intermediate intensity grassland. LUI tended to reduce local α-diversity in aboveground groups, whereas the α-diversity increased in belowground groups. Correlations between the β-diversity of different groups, particularly between plants and their consumers, became weaker at high LUI. This suggests a loss of specialist species and is further evidence for biotic homogenization. The consistently negative effects of LUI on landscape-scale biodiversity underscore the high value of extensively managed grasslands for conserving multitrophic biodiversity and ecosystem service provision. Indeed, biotic homogenization rather than local diversity loss could prove to be the most substantial consequence of land-use intensification.
UR - http://www.scopus.com/inward/record.url?scp=85007242289&partnerID=8YFLogxK
U2 - 10.1038/nature20575
DO - 10.1038/nature20575
M3 - Article
C2 - 27919075
AN - SCOPUS:85007242289
SN - 0028-0836
VL - 540
SP - 266
EP - 269
JO - Nature
JF - Nature
IS - 7632
ER -