Responses of nitrogen concentrations and pools to multiple environmental change drivers: A meta‐analysis across terrestrial ecosystems-四川农业大学·生态林业研究所_

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Responses of nitrogen concentrations and pools to multiple environmental change drivers: A meta‐analysis across terrestrial ecosystems

来源:生态林业研究所|作者:Kai Yue,Yan Peng,Dario A.Fornara,Koenraad Van Meerbeek,Lars Vesterdal,Wanqin Yang,Changhui Peng,|点击:次

  

Abstract
Aim:
We sought to understand how the individual and combined effects of multiple environmental change drivers differentially influence terrestrial nitrogen (N) concen trations and N pools and whether the interactive effects of these drivers are mainly antagonistic, synergistic or additive.
Location: Worldwide.
Time period: Contemporary.
Major taxa studied: Plants, soil, and soil microbes in terrestrial ecosystems.
Methods: We synthesized data from manipulative field studies from 758 published articles to estimate the individual, combined and interactive effects of key environ
mental change drivers (elevated CO2, warming, N addition, phosphorus addition, in creased rainfall and drought) on plant, soil, and soil microbe N concentrations and pools using metaanalyses. We assessed the influences of moderator variables on these effects through structural equation modelling.
Results: We found that (a) N concentrations and N pools were significantly affected by the individual and combined effects of multiple drivers, with N addition (either alone or in combination with another driver) showing the strongest positive effects; (b) the individual and combined effects of these drivers differed significantly be
tween N concentrations and N pools in plants, but seldom in soils and microbes; (c) additive effects of driver pairs on N concentrations and pools were much more com mon than synergistic or antagonistic effects across plants, soils and microbes; and (d) environmental and experimental factors were important moderators of the individ ual, combined and interactive effects of these drivers on terrestrial N.
Main conclusions: Our results indicate that terrestrial N concentrations and N pools, especially those of plants, can be significantly affected by the individual and com
bined effects of environmental change drivers, with the interactive effects of these drivers being mostly additive. Our findings are important because they contribute to the development of models to better predict how altered N availability affects eco system carbon cycling under future environmental changes.

Keywords
altered rainfall, combined effects, elevated CO2, individual effects, interactive effects, nitrogen addition, phosphorus addition, warming



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