Warming-induced permafrost thaw exacerbates tundra soil carbon decomposition mediated by microbial community

  • Y. Luo (Contributor)
  • Liyou Wu (Contributor)
  • Joy D. Van Nostrand (Contributor)
  • Mengting Yuan (Contributor)
  • Christopher Penton (Contributor)
  • Edward A. Schuur (Contributor)
  • Zhou Shi (Contributor)
  • Xishu Zhou (Contributor)
  • Jiajie Feng (Contributor)
  • Yunfeng Yang (Contributor)
  • Daliang Ning (Contributor)
  • Konstantinos T. Konstantinidis (Contributor)
  • Cong Wang (Contributor)
  • James R. Cole (Contributor)
  • James M. Tiedje (Contributor)
  • Jizhong Zhou (Contributor)
  • Xuanyu Tao (Contributor)
  • Zhili He (Contributor)
  • Xue Guo (Contributor)
  • Qingyun Yan (Contributor)
  • Yujia Qin (Contributor)
  • Jiesi Lei (Contributor)
  • Rosvel G. Bracho-Garillo (Contributor)

Dataset

Description

Abstract Background It is well-known that global warming has effects on high-latitude tundra underlain with permafrost. This leads to a severe concern that decomposition of soil organic carbon (SOC) previously stored in this region, which accounts for a...
Date made availableJan 17 2020
Publisherfigshare Academic Research System

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