Direct effects dominate responses to climate perturbations in grassland plant communities

Chengjin Chu; Andrew R. Kleinhesselink; Kris M. Havstad; Mitchel P. McClaran; Debra P. Peters; Lance T. Vermeire; Haiyan Wei; Peter B. Adler

doi:10.1038/ncomms11766

Direct effects dominate responses to climate perturbations in grassland plant communities

Chengjin Chu, Andrew R. Kleinhesselink, Kris M. Havstad, Mitchel P. McClaran, Debra P. Peters, Lance T. Vermeire, Haiyan Wei, Peter B. Adler

Research output: Contribution to journal › Article › peer-review

35 Scopus citations

Abstract

Theory predicts that strong indirect effects of environmental change will impact communities when niche differences between competitors are small and variation in the direct effects experienced by competitors is large, but empirical tests are lacking. Here we estimate negative frequency dependence, a proxy for niche differences, and quantify the direct and indirect effects of climate change on each species. Consistent with theory, in four of five communities indirect effects are strongest for species showing weak negative frequency dependence. Indirect effects are also stronger in communities where there is greater variation in direct effects. Overall responses to climate perturbations are driven primarily by direct effects, suggesting that single species models may be adequate for forecasting the impacts of climate change in these communities.

Original language	English (US)
Article number	11766
Journal	Nature communications
Volume	7
DOIs	https://doi.org/10.1038/ncomms11766
State	Published - Jun 8 2016

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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title = "Direct effects dominate responses to climate perturbations in grassland plant communities",

abstract = "Theory predicts that strong indirect effects of environmental change will impact communities when niche differences between competitors are small and variation in the direct effects experienced by competitors is large, but empirical tests are lacking. Here we estimate negative frequency dependence, a proxy for niche differences, and quantify the direct and indirect effects of climate change on each species. Consistent with theory, in four of five communities indirect effects are strongest for species showing weak negative frequency dependence. Indirect effects are also stronger in communities where there is greater variation in direct effects. Overall responses to climate perturbations are driven primarily by direct effects, suggesting that single species models may be adequate for forecasting the impacts of climate change in these communities.",

author = "Chengjin Chu and Kleinhesselink, {Andrew R.} and Havstad, {Kris M.} and McClaran, {Mitchel P.} and Peters, {Debra P.} and Vermeire, {Lance T.} and Haiyan Wei and Adler, {Peter B.}",

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AU - Chu, Chengjin

AU - Kleinhesselink, Andrew R.

AU - Havstad, Kris M.

AU - McClaran, Mitchel P.

AU - Peters, Debra P.

AU - Vermeire, Lance T.

AU - Wei, Haiyan

AU - Adler, Peter B.

PY - 2016/6/8

Y1 - 2016/6/8

N2 - Theory predicts that strong indirect effects of environmental change will impact communities when niche differences between competitors are small and variation in the direct effects experienced by competitors is large, but empirical tests are lacking. Here we estimate negative frequency dependence, a proxy for niche differences, and quantify the direct and indirect effects of climate change on each species. Consistent with theory, in four of five communities indirect effects are strongest for species showing weak negative frequency dependence. Indirect effects are also stronger in communities where there is greater variation in direct effects. Overall responses to climate perturbations are driven primarily by direct effects, suggesting that single species models may be adequate for forecasting the impacts of climate change in these communities.

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Direct effects dominate responses to climate perturbations in grassland plant communities

Abstract

ASJC Scopus subject areas

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