Gene-informed decomposition model predicts lower soil carbon loss due to persistent microbial adaptation to warming

Mechanisms and consequences of the acclimation of soil respiration to warming are unclear. Here, the authors combine soil respiration, metagenomics, and functional gene results from a 7-year grassland warming experiment to a microbial-enzyme decomposition model, showing functional gene information t...

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Autores principales: Xue Guo, Qun Gao, Mengting Yuan, Gangsheng Wang, Xishu Zhou, Jiajie Feng, Zhou Shi, Lauren Hale, Linwei Wu, Aifen Zhou, Renmao Tian, Feifei Liu, Bo Wu, Lijun Chen, Chang Gyo Jung, Shuli Niu, Dejun Li, Xia Xu, Lifen Jiang, Arthur Escalas, Liyou Wu, Zhili He, Joy D. Van Nostrand, Daliang Ning, Xueduan Liu, Yunfeng Yang, Edward. A. G. Schuur, Konstantinos T. Konstantinidis, James R. Cole, C. Ryan Penton, Yiqi Luo, James M. Tiedje, Jizhong Zhou
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Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/c12d6f8e7a684357bbdf1f8e28b188bc
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spelling oai:doaj.org-article:c12d6f8e7a684357bbdf1f8e28b188bc2021-12-02T17:37:14ZGene-informed decomposition model predicts lower soil carbon loss due to persistent microbial adaptation to warming10.1038/s41467-020-18706-z2041-1723https://doaj.org/article/c12d6f8e7a684357bbdf1f8e28b188bc2020-09-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-18706-zhttps://doaj.org/toc/2041-1723Mechanisms and consequences of the acclimation of soil respiration to warming are unclear. Here, the authors combine soil respiration, metagenomics, and functional gene results from a 7-year grassland warming experiment to a microbial-enzyme decomposition model, showing functional gene information to lower uncertainty and improve fit.Xue GuoQun GaoMengting YuanGangsheng WangXishu ZhouJiajie FengZhou ShiLauren HaleLinwei WuAifen ZhouRenmao TianFeifei LiuBo WuLijun ChenChang Gyo JungShuli NiuDejun LiXia XuLifen JiangArthur EscalasLiyou WuZhili HeJoy D. Van NostrandDaliang NingXueduan LiuYunfeng YangEdward. A. G. SchuurKonstantinos T. KonstantinidisJames R. ColeC. Ryan PentonYiqi LuoJames M. TiedjeJizhong ZhouNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-12 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Xue Guo
Qun Gao
Mengting Yuan
Gangsheng Wang
Xishu Zhou
Jiajie Feng
Zhou Shi
Lauren Hale
Linwei Wu
Aifen Zhou
Renmao Tian
Feifei Liu
Bo Wu
Lijun Chen
Chang Gyo Jung
Shuli Niu
Dejun Li
Xia Xu
Lifen Jiang
Arthur Escalas
Liyou Wu
Zhili He
Joy D. Van Nostrand
Daliang Ning
Xueduan Liu
Yunfeng Yang
Edward. A. G. Schuur
Konstantinos T. Konstantinidis
James R. Cole
C. Ryan Penton
Yiqi Luo
James M. Tiedje
Jizhong Zhou
Gene-informed decomposition model predicts lower soil carbon loss due to persistent microbial adaptation to warming
description Mechanisms and consequences of the acclimation of soil respiration to warming are unclear. Here, the authors combine soil respiration, metagenomics, and functional gene results from a 7-year grassland warming experiment to a microbial-enzyme decomposition model, showing functional gene information to lower uncertainty and improve fit.
format article
author Xue Guo
Qun Gao
Mengting Yuan
Gangsheng Wang
Xishu Zhou
Jiajie Feng
Zhou Shi
Lauren Hale
Linwei Wu
Aifen Zhou
Renmao Tian
Feifei Liu
Bo Wu
Lijun Chen
Chang Gyo Jung
Shuli Niu
Dejun Li
Xia Xu
Lifen Jiang
Arthur Escalas
Liyou Wu
Zhili He
Joy D. Van Nostrand
Daliang Ning
Xueduan Liu
Yunfeng Yang
Edward. A. G. Schuur
Konstantinos T. Konstantinidis
James R. Cole
C. Ryan Penton
Yiqi Luo
James M. Tiedje
Jizhong Zhou
author_facet Xue Guo
Qun Gao
Mengting Yuan
Gangsheng Wang
Xishu Zhou
Jiajie Feng
Zhou Shi
Lauren Hale
Linwei Wu
Aifen Zhou
Renmao Tian
Feifei Liu
Bo Wu
Lijun Chen
Chang Gyo Jung
Shuli Niu
Dejun Li
Xia Xu
Lifen Jiang
Arthur Escalas
Liyou Wu
Zhili He
Joy D. Van Nostrand
Daliang Ning
Xueduan Liu
Yunfeng Yang
Edward. A. G. Schuur
Konstantinos T. Konstantinidis
James R. Cole
C. Ryan Penton
Yiqi Luo
James M. Tiedje
Jizhong Zhou
author_sort Xue Guo
title Gene-informed decomposition model predicts lower soil carbon loss due to persistent microbial adaptation to warming
title_short Gene-informed decomposition model predicts lower soil carbon loss due to persistent microbial adaptation to warming
title_full Gene-informed decomposition model predicts lower soil carbon loss due to persistent microbial adaptation to warming
title_fullStr Gene-informed decomposition model predicts lower soil carbon loss due to persistent microbial adaptation to warming
title_full_unstemmed Gene-informed decomposition model predicts lower soil carbon loss due to persistent microbial adaptation to warming
title_sort gene-informed decomposition model predicts lower soil carbon loss due to persistent microbial adaptation to warming
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/c12d6f8e7a684357bbdf1f8e28b188bc
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