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@ARTICLE{Proulx:201052,
      author       = {Proulx, Raphaël and Wirth, Christian and Voigt, Winfried
                      and Weigelt, Alexandra and Roscher, Christiane and Attinger,
                      Sabine and Baade, Jussi and Barnard, Romain L. and Buchmann,
                      Nina and Buscot, François and Eisenhauer, Nico and Fischer,
                      Markus and Gleixner, Gerd and Halle, Stefan and Hildebrandt,
                      Anke and Kowalski, Esther and Kuu, Annely and Lange, Markus
                      and Milcu, Alex and Niklaus, Pascal A. and Oelmann, Yvonne
                      and Rosenkranz, Stephan and Sabais, Alexander and Scherber,
                      Christoph and Scherer-Lorenzen, Michael and Scheu, Stefan
                      and Schulze, Ernst-Detlef and Schumacher, Jens and
                      Schwichtenberg, Guido and Soussana, Jean-François and
                      Temperton, Vicky and Weisser, Wolfgang W. and Wilcke,
                      Wolfgang and Schmid, Bernhard},
      title        = {{D}iversity {P}romotes {T}emporal {S}tability across
                      {L}evels of {E}cosystem {O}rganization in {E}xperimental
                      {G}rasslands},
      journal      = {PLoS one},
      volume       = {5},
      number       = {10},
      issn         = {1932-6203},
      address      = {Lawrence, Kan.},
      publisher    = {PLoS},
      reportid     = {FZJ-2015-03362},
      pages        = {e13382 -},
      year         = {2010},
      abstract     = {The diversity–stability hypothesis states that current
                      losses of biodiversity can impair the ability of an
                      ecosystem to dampen the effect of environmental
                      perturbations on its functioning. Using data from a
                      long-term and comprehensive biodiversity experiment, we
                      quantified the temporal stability of 42 variables
                      characterizing twelve ecological functions in managed
                      grassland plots varying in plant species richness. We
                      demonstrate that diversity increases stability i) across
                      trophic levels (producer, consumer), ii) at both the system
                      (community, ecosystem) and the component levels (population,
                      functional group, phylogenetic clade), and iii) primarily
                      for aboveground rather than belowground processes. Temporal
                      synchronization across studied variables was mostly
                      unaffected with increasing species richness. This study
                      provides the strongest empirical support so far that
                      diversity promotes stability across different ecological
                      functions and levels of ecosystem organization in
                      grasslands.},
      cin          = {IBG-2},
      ddc          = {500},
      cid          = {I:(DE-Juel1)IBG-2-20101118},
      pnm          = {89582 - Plant Science (POF2-89582)},
      pid          = {G:(DE-HGF)POF2-89582},
      typ          = {PUB:(DE-HGF)16},
      UT           = {WOS:000282869800046},
      pubmed       = {pmid:20967213},
      doi          = {10.1371/journal.pone.0013382},
      url          = {https://juser.fz-juelich.de/record/201052},
}