Winter warming in Alaska accelerates lignin decomposition contributed by Proteobacteria

  • James M. Tiedje (Contributor)
  • Jiajie Feng (Contributor)
  • Gangsheng Wang (Contributor)
  • Renmao Tian (Contributor)
  • Colin T. Bates (Contributor)
  • Xuanyu Tao (Contributor)
  • Konstantinos T. Konstantinidis (Contributor)
  • James R. Cole (Contributor)
  • Julian Yu (Contributor)
  • Y. Luo (Contributor)
  • Lauren Hale (Contributor)
  • Jiesi Lei (Contributor)
  • Edward A. Schuur (Contributor)
  • Jizhong Zhou (Contributor)
  • Linwei Wu (Contributor)
  • Yunfeng Yang (Contributor)
  • Daliang Ning (Contributor)
  • R. Bracho (Contributor)
  • Eric R. Johnston (Contributor)
  • Christopher Penton (Contributor)
  • Fenliang Fan (Contributor)
  • Mengting Yuan (Contributor)
  • Qun Gao (Contributor)

Dataset

Description

Abstract Background In a warmer world, microbial decomposition of previously frozen organic carbon (C) is one of the most likely positive climate feedbacks of permafrost regions to the atmosphere. However, mechanistic understanding of microbial mediatio...
Date made availableJun 5 2020
Publisherfigshare Academic Research System

Cite this