Microbial mediation of carbon-cycle feedbacks to climate warming
Author: ["Jizhong Zhou","Kai Xue","Jianping Xie","Ye Deng","Liyou Wu","Xiaoli Cheng","Shenfeng Fei","Shiping Deng","Zhili He","Joy D. Van Nostrand","Yiqi Luo"]
Publication: Nature Climate Change
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Abstract
A study based on a long-term manipulation experiment in a grassland ecosystem describes the microbial mechanisms controlling feedbacks to carbon and nutrient cycling under warming. The findings suggest that ecosystem models should more explicitly consider microbial feedbacks to climate change. Understanding the mechanisms of biospheric feedbacks to climate change is critical to project future climate warming1,2,3. Although microorganisms catalyse most biosphere processes related to fluxes of greenhouse gases, little is known about the microbial role in regulating future climate change4. Integrated metagenomic and functional analyses of a long-term warming experiment in a grassland ecosystem showed that microorganisms play crucial roles in regulating soil carbon dynamics through three primary feedback mechanisms: shifting microbial community composition, which most likely led to the reduced temperature sensitivity of heterotrophic soil respiration; differentially stimulating genes for degrading labile but not recalcitrant carbon so as to maintain long-term soil carbon stability and storage; and enhancing nutrient-cycling processes to promote plant nutrient-use efficiency and hence plant growth. Elucidating microbially mediated feedbacks is fundamental to understanding ecosystem responses to climate warming and provides a mechanistic basis for carbon–climate modelling.
Cite this article
Zhou, J., Xue, K., Xie, J. et al. Microbial mediation of carbon-cycle feedbacks to climate warming. Nature Clim Change 2, 106–110 (2012). https://doi.org/10.1038/nclimate1331
