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Methane dynamics regulated by microbial community response to permafrost thaw

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  • Carmody K. McCalley

    (University of Arizona
    Present addresses: Earth Systems Research Center, University of New Hampshire, Durham, New Hampshire 03824, USA (C.K.M.); Department of Ecology and Genetics, Uppsala University, Uppsala 75 236, Sweden (R.M.).)

  • Ben J. Woodcroft

    (Australian Centre for Ecogenomics, School of Chemistry and Molecular Biosciences, University of Queensland)

  • Suzanne B. Hodgkins

    (Ocean and Atmospheric Science, Florida State University)

  • Richard A. Wehr

    (University of Arizona)

  • Eun-Hae Kim

    (Water and Environmental Science, University of Arizona)

  • Rhiannon Mondav

    (Australian Centre for Ecogenomics, School of Chemistry and Molecular Biosciences, University of Queensland
    Present addresses: Earth Systems Research Center, University of New Hampshire, Durham, New Hampshire 03824, USA (C.K.M.); Department of Ecology and Genetics, Uppsala University, Uppsala 75 236, Sweden (R.M.).)

  • Patrick M. Crill

    (Stockholm University, Stockholm 106 91, Sweden)

  • Jeffrey P. Chanton

    (Ocean and Atmospheric Science, Florida State University)

  • Virginia I. Rich

    (Water and Environmental Science, University of Arizona)

  • Gene W. Tyson

    (Australian Centre for Ecogenomics, School of Chemistry and Molecular Biosciences, University of Queensland)

  • Scott R. Saleska

    (University of Arizona)

Abstract

The abundance of key microbial lineages can be used to predict atmospherically relevant patterns in methane isotopes and the proportion of carbon metabolized to methane during permafrost thaw, suggesting that microbial ecology may be important in ecosystem-scale responses to global change.

Suggested Citation

  • Carmody K. McCalley & Ben J. Woodcroft & Suzanne B. Hodgkins & Richard A. Wehr & Eun-Hae Kim & Rhiannon Mondav & Patrick M. Crill & Jeffrey P. Chanton & Virginia I. Rich & Gene W. Tyson & Scott R. Sal, 2014. "Methane dynamics regulated by microbial community response to permafrost thaw," Nature, Nature, vol. 514(7523), pages 478-481, October.
  • Handle: RePEc:nat:nature:v:514:y:2014:i:7523:d:10.1038_nature13798
    DOI: 10.1038/nature13798
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    Citations

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    Cited by:

    1. Bong Gu Kang & Kyung-Min Seo & Tag Gon Kim, 2018. "Communication Analysis of Network-Centric Warfare via Transformation of System of Systems Model into Integrated System Model Using Neural Network," Complexity, Hindawi, vol. 2018, pages 1-16, June.
    2. Alexandra B Cory & Jeffrey P Chanton & Robert G M Spencer & Olivia C Ogles & Virginia I Rich & Carmody K McCalley & IsoGenie Project Coordinators & EMERGE 2021 Field Team & Rachel M Wilson, 2022. "Quantifying the inhibitory impact of soluble phenolics on anaerobic carbon mineralization in a thawing permafrost peatland," PLOS ONE, Public Library of Science, vol. 17(2), pages 1-19, February.
    3. Sudakow, Ivan & Savenkova, Elena & Kondrashov, Dmitri & Vakulenko, Sergey A. & Sashina, Elena, 2023. "Diverse soil microbial communities may mitigate climate system bifurcation," Chaos, Solitons & Fractals, Elsevier, vol. 177(C).
    4. Xiaoqian Li & Jianwei Xing & Shouji Pang & Youhai Zhu & Shuai Zhang & Rui Xiao & Cheng Lu, 2022. "Carbon Isotopic Evidence for Gas Hydrate Release and Its Significance on Seasonal Wetland Methane Emission in the Muli Permafrost of the Qinghai-Tibet Plateau," IJERPH, MDPI, vol. 19(4), pages 1-14, February.
    5. Futing Liu & Shuqi Qin & Kai Fang & Leiyi Chen & Yunfeng Peng & Pete Smith & Yuanhe Yang, 2022. "Divergent changes in particulate and mineral-associated organic carbon upon permafrost thaw," Nature Communications, Nature, vol. 13(1), pages 1-10, December.

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