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Experimental warming accelerates positive soil priming in a temperate grassland ecosystem

Author

Listed:
  • Xuanyu Tao

    (University of Oklahoma
    University of Oklahoma)

  • Zhifeng Yang

    (University of Oklahoma
    University of Oklahoma)

  • Jiajie Feng

    (University of Oklahoma
    University of Oklahoma)

  • Siyang Jian

    (University of Oklahoma
    University of Oklahoma)

  • Yunfeng Yang

    (Tsinghua University)

  • Colin T. Bates

    (University of Oklahoma
    University of Oklahoma)

  • Gangsheng Wang

    (Wuhan University)

  • Xue Guo

    (University of Oklahoma
    University of Oklahoma
    Tsinghua University)

  • Daliang Ning

    (University of Oklahoma
    University of Oklahoma)

  • Megan L. Kempher

    (University of Oklahoma
    University of Oklahoma)

  • Xiao Jun A. Liu

    (University of Oklahoma
    University of Oklahoma)

  • Yang Ouyang

    (University of Oklahoma
    University of Oklahoma)

  • Shun Han

    (University of Oklahoma
    University of Oklahoma)

  • Linwei Wu

    (University of Oklahoma
    University of Oklahoma)

  • Yufei Zeng

    (Tsinghua University)

  • Jialiang Kuang

    (University of Oklahoma
    University of Oklahoma)

  • Ya Zhang

    (University of Oklahoma
    University of Oklahoma)

  • Xishu Zhou

    (University of Oklahoma
    University of Oklahoma)

  • Zheng Shi

    (University of Oklahoma
    University of Oklahoma)

  • Wei Qin

    (University of Oklahoma
    University of Oklahoma)

  • Jianjun Wang

    (Chinese Academic of Sciences)

  • Mary K. Firestone

    (University of California, Berkeley, Berkeley
    Lawrence Berkeley National Laboratory)

  • James M. Tiedje

    (Michigan State University)

  • Jizhong Zhou

    (University of Oklahoma
    University of Oklahoma
    Lawrence Berkeley National Laboratory
    University of Oklahoma)

Abstract

Unravelling biosphere feedback mechanisms is crucial for predicting the impacts of global warming. Soil priming, an effect of fresh plant-derived carbon (C) on native soil organic carbon (SOC) decomposition, is a key feedback mechanism that could release large amounts of soil C into the atmosphere. However, the impacts of climate warming on soil priming remain elusive. Here, we show that experimental warming accelerates soil priming by 12.7% in a temperate grassland. Warming alters bacterial communities, with 38% of unique active phylotypes detected under warming. The functional genes essential for soil C decomposition are also stimulated, which could be linked to priming effects. We incorporate lab-derived information into an ecosystem model showing that model parameter uncertainty can be reduced by 32–37%. Model simulations from 2010 to 2016 indicate an increase in soil C decomposition under warming, with a 9.1% rise in priming-induced CO2 emissions. If our findings can be generalized to other ecosystems over an extended period of time, soil priming could play an important role in terrestrial C cycle feedbacks and climate change.

Suggested Citation

  • Xuanyu Tao & Zhifeng Yang & Jiajie Feng & Siyang Jian & Yunfeng Yang & Colin T. Bates & Gangsheng Wang & Xue Guo & Daliang Ning & Megan L. Kempher & Xiao Jun A. Liu & Yang Ouyang & Shun Han & Linwei W, 2024. "Experimental warming accelerates positive soil priming in a temperate grassland ecosystem," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-45277-0
    DOI: 10.1038/s41467-024-45277-0
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