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Biodiversity increases multitrophic energy use efficiency, flow and storage in grasslands

营养水平 生物多样性 生态系统 生态学 营养级联 能量流 环境科学 生态系统服务 生物 草原 食物网 能量(信号处理) 数学 统计
作者
Oksana Y. Buzhdygan,Sebastian T. Meyer,Wolfgang W. Weisser,Nico Eisenhauer,Anne Ebeling,Stuart R. Borrett,Nina Buchmann,Roeland Cortois,Gerlinde B. De Deyn,Hans de Kroon,Gerd Gleixner,Lionel R. Hertzog,Jes Hines,Markus Lange,Liesje Mommer,Janneke Ravenek,Christoph Scherber,Michael Scherer‐Lorenzen,Stefan Scheu,Bernhard Schmid
出处
期刊:Nature Ecology and Evolution [Nature Portfolio]
卷期号:4 (3): 393-405 被引量:140
标识
DOI:10.1038/s41559-020-1123-8
摘要

The continuing loss of global biodiversity has raised questions about the risk that species extinctions pose for the functioning of natural ecosystems and the services that they provide for human wellbeing. There is consensus that, on single trophic levels, biodiversity sustains functions; however, to understand the full range of biodiversity effects, a holistic and multitrophic perspective is needed. Here, we apply methods from ecosystem ecology that quantify the structure and dynamics of the trophic network using ecosystem energetics to data from a large grassland biodiversity experiment. We show that higher plant diversity leads to more energy stored, greater energy flow and higher community-energy-use efficiency across the entire trophic network. These effects of biodiversity on energy dynamics were not restricted to only plants but were also expressed by other trophic groups and, to a similar degree, in aboveground and belowground parts of the ecosystem, even though plants are by far the dominating group in the system. The positive effects of biodiversity on one trophic level were not counteracted by the negative effects on adjacent levels. Trophic levels jointly increased the performance of the community, indicating ecosystem-wide multitrophic complementarity, which is potentially an important prerequisite for the provisioning of ecosystem services. Applying the concept of ecosystem energetics to a grassland biodiversity experiment, the authors show that the storage and flow of energy across the whole trophic network, both above- and belowground, becomes more efficient as plant diversity increases.
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