Consistent drivers of plant biodiversity across managed ecosystems

Ecosystems managed for production of biomass are often characterized by low biodiversity because management aims to optimize single ecosystem functions (i.e. yield) involving deliberate selection of species or cultivars. In consequence, considerable differences in observed plant species richness and...

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Published in	Philosophical transactions of the Royal Society of London. Series B. Biological sciences Vol. 371; no. 1694; p. 20150284
Main Authors	Minden, Vanessa, Scherber, Christoph, Cebrián Piqueras, Miguel A., Trinogga, Juliane, Trenkamp, Anastasia, Mantilla-Contreras, Jasmin, Lienin, Patrick, Kleyer, Michael
Format	Journal Article
Language	English
Published	England The Royal Society 19.05.2016
Subjects	Biodiversity Biomass Diversity-Productivity Europe Grassland Land-Use Models, Biological Plant Community Biomass Plant Species Richness Plants Production System Structural Equation Modelling Wetlands plant community biomass plant species richness land-use production system structural equation modelling diversity-productivity
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Abstract	Ecosystems managed for production of biomass are often characterized by low biodiversity because management aims to optimize single ecosystem functions (i.e. yield) involving deliberate selection of species or cultivars. In consequence, considerable differences in observed plant species richness and productivity remain across systems, and the drivers of these differences have remained poorly resolved so far. In addition, it has remained unclear if species richness feeds back on ecosystem functions such as yield in real-world systems. Here, we establish N = 360 experimental plots across a broad range of managed ecosystems in several European countries, and use structural equation models to unravel potential drivers of plant species richness. We hypothesize that the relationships between productivity, total biomass and observed species richness are affected by management intensity, and that these effects differ between habitat types (dry grasslands, grasslands, and wetlands). We found that local management was an important driver of species richness across systems. Management caused system disturbance, resulting in reduced productivity yet enhanced total biomass. Plant species richness was directly and positively driven by management, with consistently negative effects of total biomass. Productivity effects on richness were positive, negative or neutral. Our study shows that management and total biomass drive plant species richness across real-world managed systems.
AbstractList	Ecosystems managed for production of biomass are often characterized by low biodiversity because management aims to optimize single ecosystem functions (i.e. yield) involving deliberate selection of species or cultivars. In consequence, considerable differences in observed plant species richness and productivity remain across systems, and the drivers of these differences have remained poorly resolved so far. In addition, it has remained unclear if species richness feeds back on ecosystem functions such as yield in real-world systems. Here, we establish N = 360 experimental plots across a broad range of managed ecosystems in several European countries, and use structural equation models to unravel potential drivers of plant species richness. We hypothesize that the relationships between productivity, total biomass and observed species richness are affected by management intensity, and that these effects differ between habitat types (dry grasslands, grasslands, and wetlands). We found that local management was an important driver of species richness across systems. Management caused system disturbance, resulting in reduced productivity yet enhanced total biomass. Plant species richness was directly and positively driven by management, with consistently negative effects of total biomass. Productivity effects on richness were positive, negative or neutral. Our study shows that management and total biomass drive plant species richness across real-world managed systems. Ecosystems managed for production of biomass are often characterized by low biodiversity because management aims to optimize single ecosystem functions (i.e. yield) involving deliberate selection of species or cultivars. In consequence, considerable differences in observed plant species richness and productivity remain across systems, and the drivers of these differences have remained poorly resolved so far. In addition, it has remained unclear if species richness feeds back on ecosystem functions such as yield in real-world systems. Here, we establish N = 360 experimental plots across a broad range of managed ecosystems in several European countries, and use structural equation models to unravel potential drivers of plant species richness. We hypothesize that the relationships between productivity, total biomass and observed species richness are affected by management intensity, and that these effects differ between habitat types (dry grasslands, grasslands, and wetlands). We found that local management was an important driver of species richness across systems. Management caused system disturbance, resulting in reduced productivity yet enhanced total biomass. Plant species richness was directly and positively driven by management, with consistently negative effects of total biomass. Productivity effects on richness were positive, negative or neutral. Our study shows that management and total biomass drive plant species richness across real-world managed systems.
Author	Cebrián Piqueras, Miguel A. Trenkamp, Anastasia Scherber, Christoph Mantilla-Contreras, Jasmin Lienin, Patrick Minden, Vanessa Trinogga, Juliane Kleyer, Michael
AuthorAffiliation	1 Landscape Ecology Group , University of Oldenburg , 26111 Oldenburg , Germany 3 Institute of Landscape Ecology , University of Münster , 48149 Münster , Germany 4 Institute of Biology and Chemistry , University of Hildesheim , 31141 Hildesheim , Germany 2 DNPW, Agroecology , University of Göttingen , 37077 Göttingen , Germany
AuthorAffiliation_xml	– name: 3 Institute of Landscape Ecology , University of Münster , 48149 Münster , Germany – name: 4 Institute of Biology and Chemistry , University of Hildesheim , 31141 Hildesheim , Germany – name: 2 DNPW, Agroecology , University of Göttingen , 37077 Göttingen , Germany – name: 1 Landscape Ecology Group , University of Oldenburg , 26111 Oldenburg , Germany
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Keywords	plant community biomass plant species richness land-use production system structural equation modelling diversity-productivity
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Notes	Theme issue ‘Biodiversity and ecosystem functioning in dynamic landscapes’ compiled and edited by Ulrich Brose and Helmut Hillebrand ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 These authors contributed equally to this study. One contribution of 17 to a theme issue ‘Biodiversity and ecosystem functioning in dynamic landscapes’.
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SubjectTerms	Biodiversity Biomass Diversity-Productivity Europe Grassland Land-Use Models, Biological Plant Community Biomass Plant Species Richness Plants Production System Structural Equation Modelling Wetlands
Title	Consistent drivers of plant biodiversity across managed ecosystems
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