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Long‐term elevated precipitation induces grassland soil carbon loss via microbe‐plant–soil interplay.

Authors :
Wang, Mengmeng
Sun, Xin
Cao, Baichuan
Chiariello, Nona R.
Docherty, Kathryn M.
Field, Christopher B.
Gao, Qun
Gutknecht, Jessica L. M.
Guo, Xue
He, Genhe
Hungate, Bruce A.
Lei, Jiesi
Niboyet, Audrey
Le Roux, Xavier
Shi, Zhou
Shu, Wensheng
Yuan, Mengting
Zhou, Jizhong
Yang, Yunfeng
Source :
Global Change Biology. Sep2023, Vol. 29 Issue 18, p5429-5444. 16p.
Publication Year :
2023

Abstract

Global climate models predict that the frequency and intensity of precipitation events will increase in many regions across the world. However, the biosphere‐climate feedback to elevated precipitation (eP) remains elusive. Here, we report a study on one of the longest field experiments assessing the effects of eP, alone or in combination with other climate change drivers such as elevated CO2 (eCO2), warming and nitrogen deposition. Soil total carbon (C) decreased after a decade of eP treatment, while plant root production decreased after 2 years. To explain this asynchrony, we found that the relative abundances of fungal genes associated with chitin and protein degradation increased and were positively correlated with bacteriophage genes, suggesting a potential viral shunt in C degradation. In addition, eP increased the relative abundances of microbial stress tolerance genes, which are essential for coping with environmental stressors. Microbial responses to eP were phylogenetically conserved. The effects of eP on soil total C, root production, and microbes were interactively affected by eCO2. Collectively, we demonstrate that long‐term eP induces soil C loss, owing to changes in microbial community composition, functional traits, root production, and soil moisture. Our study unveils an important, previously unknown biosphere‐climate feedback in Mediterranean‐type water‐limited ecosystems, namely how eP induces soil C loss via microbe‐plant–soil interplay. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
13541013
Volume :
29
Issue :
18
Database :
Academic Search Index
Journal :
Global Change Biology
Publication Type :
Academic Journal
Accession number :
169944351
Full Text :
https://doi.org/10.1111/gcb.16811