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Overriding water table control on managed peatland greenhouse gas emissions

Author

Listed:
  • C. D. Evans

    (UK Centre for Ecology and Hydrology
    Swedish University of Agricultural Sciences)

  • M. Peacock

    (Swedish University of Agricultural Sciences)

  • A. J. Baird

    (University of Leeds)

  • R. R. E. Artz

    (The James Hutton Institute)

  • A. Burden

    (UK Centre for Ecology and Hydrology)

  • N. Callaghan

    (UK Centre for Ecology and Hydrology)

  • P. J. Chapman

    (University of Leeds)

  • H. M. Cooper

    (UK Centre for Ecology and Hydrology)

  • M. Coyle

    (The James Hutton Institute
    UK Centre for Ecology and Hydrology)

  • E. Craig

    (UK Centre for Ecology and Hydrology
    Bangor University)

  • A. Cumming

    (UK Centre for Ecology and Hydrology)

  • S. Dixon

    (Durham University)

  • V. Gauci

    (University of Birmingham)

  • R. P. Grayson

    (University of Leeds)

  • C. Helfter

    (UK Centre for Ecology and Hydrology)

  • C. M. Heppell

    (Queen Mary University of London)

  • J. Holden

    (University of Leeds)

  • D. L. Jones

    (Bangor University
    Murdoch University
    University of Western Australia)

  • J. Kaduk

    (University of Leicester)

  • P. Levy

    (UK Centre for Ecology and Hydrology)

  • R. Matthews

    (Rothamsted Research, North Wyke)

  • N. P. McNamara

    (UK Centre for Ecology and Hydrology)

  • T. Misselbrook

    (Rothamsted Research, North Wyke)

  • S. Oakley

    (UK Centre for Ecology and Hydrology)

  • S. E. Page

    (University of Leicester)

  • M. Rayment

    (Bangor University)

  • L. M. Ridley

    (Bangor University)

  • K. M. Stanley

    (Goethe Universität Frankfurt)

  • J. L. Williamson

    (UK Centre for Ecology and Hydrology)

  • F. Worrall

    (Durham University)

  • R. Morrison

    (UK Centre for Ecology and Hydrology)

Abstract

Global peatlands store more carbon than is naturally present in the atmosphere1,2. However, many peatlands are under pressure from drainage-based agriculture, plantation development and fire, with the equivalent of around 3 per cent of all anthropogenic greenhouse gases emitted from drained peatland3–5. Efforts to curb such emissions are intensifying through the conservation of undrained peatlands and re-wetting of drained systems6. Here we report eddy covariance data for carbon dioxide from 16 locations and static chamber measurements for methane from 41 locations in the UK and Ireland. We combine these with published data from sites across all major peatland biomes. We find that the mean annual effective water table depth (WTDe; that is, the average depth of the aerated peat layer) overrides all other ecosystem- and management-related controls on greenhouse gas fluxes. We estimate that every 10 centimetres of reduction in WTDe could reduce the net warming impact of CO2 and CH4 emissions (100-year global warming potentials) by the equivalent of at least 3 tonnes of CO2 per hectare per year, until WTDe is less than 30 centimetres. Raising water levels further would continue to have a net cooling effect until WTDe is within 10 centimetres of the surface. Our results suggest that greenhouse gas emissions from peatlands drained for agriculture could be greatly reduced without necessarily halting their productive use. Halving WTDe in all drained agricultural peatlands, for example, could reduce emissions by the equivalent of over 1 per cent of global anthropogenic emissions.

Suggested Citation

  • C. D. Evans & M. Peacock & A. J. Baird & R. R. E. Artz & A. Burden & N. Callaghan & P. J. Chapman & H. M. Cooper & M. Coyle & E. Craig & A. Cumming & S. Dixon & V. Gauci & R. P. Grayson & C. Helfter &, 2021. "Overriding water table control on managed peatland greenhouse gas emissions," Nature, Nature, vol. 593(7860), pages 548-552, May.
    • Handle: RePEc:nat:nature:v:593:y:2021:i:7860:d:10.1038_s41586-021-03523-1
    DOI: 10.1038/s41586-021-03523-1
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    Cited by:

    1. Isobel L. Lloyd & Virginia Thomas & Chidiebere Ofoegbu & Andrew V. Bradley & Paddy Bullard & Brenda D’Acunha & Beth Delaney & Helen Driver & Chris D. Evans & Katy J. Faulkner & Jeremy A. Fonvielle & R, 2023. "State of Knowledge on UK Agricultural Peatlands for Food Production and the Net Zero Transition," Sustainability, MDPI, vol. 15(23), pages 1-14, November.
    2. Muh Taufik & Mudrik Haikal & Marliana Tri Widyastuti & Chusnul Arif & I. Putu Santikayasa, 2023. "The Impact of Rewetting Peatland on Fire Hazard in Riau, Indonesia," Sustainability, MDPI, vol. 15(3), pages 1-12, January.
    3. Tiehu He & Weixin Ding & Xiaoli Cheng & Yanjiang Cai & Yulong Zhang & Huijuan Xia & Xia Wang & Jiehao Zhang & Kerong Zhang & Quanfa Zhang, 2024. "Meta-analysis shows the impacts of ecological restoration on greenhouse gas emissions," Nature Communications, Nature, vol. 15(1), pages 1-14, December.
    4. Jianzong Shi & Wenhao Liu & Ren Li & Xiaodong Wu & Tonghua Wu & Lin Zhao & Junjie Ma & Shenning Wang & Yao Xiao & Guojie Hu & Yongliang Jiao & Dong Wang & Xianhua Wei & Peiqing Lou & Yongping Qiao, 2024. "Research Progress in the Field of Peatlands in 1990–2022: A Systematic Analysis Based on Bibliometrics," Land, MDPI, vol. 13(4), pages 1-22, April.
    5. Alastair J. Crawford & Claire M. Belcher & Stacey New & Angela Gallego-Sala & Graeme T. Swindles & Susan Page & Tatiana A. Blyakharchuk & Hinsby Cadillo-Quiroz & Dan J. Charman & Mariusz Gałka & Paul , 2024. "Tropical peat composition may provide a negative feedback on fire occurrence and severity," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    6. Samuel Imisi Awala & Joo-Han Gwak & Yongman Kim & Man-Young Jung & Peter F. Dunfield & Michael Wagner & Sung-Keun Rhee, 2024. "Nitrous oxide respiration in acidophilic methanotrophs," Nature Communications, Nature, vol. 15(1), pages 1-18, December.

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