Changes in Soil Substrate and Microbial Properties Associated with Permafrost Thaw Reduce Nitrogen Mineralization

Xue Yang; Hanbo Yun; Junfeng Wang; Xiaoying Jin; Hongwei Wang; Zhizhong Sun; Xiaoying Li; Sizhong Yang; Huijun Jin; Ruixia He

doi:10.3390/f14102060

Changes in Soil Substrate and Microbial Properties Associated with Permafrost Thaw Reduce Nitrogen Mineralization

Xue Yang(Northeast Agricultural University), Hanbo Yun(Northwest Institute of Eco-Environment and Resources), Junfeng Wang(Chinese Academy of Sciences), Xiaoying Jin(Chinese Academy of Sciences), Hongwei Wang(Chinese Academy of Sciences), Zhizhong Sun(Chinese Academy of Sciences), Xiaoying Li(Harbin Institute of Technology), Sizhong Yang(Chinese Academy of Sciences), Huijun Jin(Chinese Academy of Sciences), Ruixia He(Chinese Academy of Sciences)

Forests

October 16, 2023

10.3390/f14102060

Cited by 2

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Changes in Soil Substrate and Microbial Properties Associated with Permafrost Thaw Reduce Nitrogen Mineralization

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