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Export of dissolved organic carbon from peatlands under elevated carbon dioxide levels

Author

Listed:
  • C. Freeman

    (University of Wales)

  • N. Fenner

    (University of Wales)

  • N. J. Ostle

    (Lancaster Environment Centre)

  • H. Kang

    (University of Wales
    Ewha University)

  • D. J. Dowrick

    (University of Wales)

  • B. Reynolds

    (Centre for Ecology and Hydrology)

  • M. A. Lock

    (University of Wales)

  • D. Sleep

    (Lancaster Environment Centre)

  • S. Hughes

    (Centre for Ecology and Hydrology)

  • J. Hudson

    (Centre for Ecology and Hydrology)

Abstract

Peatlands represent a vast store of global carbon1. Observations of rapidly rising dissolved organic carbon concentrations in rivers draining peatlands have created concerns that those stores are beginning to destabilize2,3. Three main factors have been put forward as potential causal mechanisms, but it appears that two alternatives—warming2,4 and increased river discharge3—cannot offer satisfactory explanations5. Here we show that the third proposed mechanism, namely shifting trends in the proportion of annual rainfall arriving in summer6, is similarly unable to account for the trend. Instead we infer that a previously unrecognized mechanism—carbon dioxide mediated stimulation of primary productivity—is responsible. Under elevated carbon dioxide levels, the proportion of dissolved organic carbon derived from recently assimilated carbon dioxide was ten times higher than that of the control cases. Concentrations of dissolved organic carbon appear far more sensitive to environmental drivers that affect net primary productivity than those affecting decomposition alone.

Suggested Citation

  • C. Freeman & N. Fenner & N. J. Ostle & H. Kang & D. J. Dowrick & B. Reynolds & M. A. Lock & D. Sleep & S. Hughes & J. Hudson, 2004. "Export of dissolved organic carbon from peatlands under elevated carbon dioxide levels," Nature, Nature, vol. 430(6996), pages 195-198, July.
    • Handle: RePEc:nat:nature:v:430:y:2004:i:6996:d:10.1038_nature02707
    DOI: 10.1038/nature02707
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    Citations

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    Cited by:

    1. J Timothy Wootton & Catherine A Pfister, 2012. "Carbon System Measurements and Potential Climatic Drivers at a Site of Rapidly Declining Ocean pH," PLOS ONE, Public Library of Science, vol. 7(12), pages 1-11, December.
    2. Marcin Becher & Dorota Kalembasa & Stanisław Kalembasa & Barbara Symanowicz & Dawid Jaremko & Adam Matyszczak, 2023. "A New Method for Sequential Fractionation of Nitrogen in Drained Organic (Peat) Soils," IJERPH, MDPI, vol. 20(3), pages 1-16, January.
    3. Farrelly, Damien J. & Everard, Colm D. & Fagan, Colette C. & McDonnell, Kevin P., 2013. "Carbon sequestration and the role of biological carbon mitigation: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 21(C), pages 712-727.
    4. Ianis Delpla & Donald T. Monteith & Chris Freeman & Joris Haftka & Joop Hermens & Timothy G. Jones & Estelle Baurès & Aude-Valérie Jung & Olivier Thomas, 2014. "A Decision Support System for Drinking Water Production Integrating Health Risks Assessment," IJERPH, MDPI, vol. 11(7), pages 1-22, July.
    5. Jutras, Marie-France & Nasr, Mina & Castonguay, Mark & Pit, Christopher & Pomeroy, Joseph H. & Smith, Todd P. & Zhang, Cheng-fu & Ritchie, Charles D. & Meng, Fan-Rui & Clair, Thomas A. & Arp, Paul A., 2011. "Dissolved organic carbon concentrations and fluxes in forest catchments and streams: DOC-3 model," Ecological Modelling, Elsevier, vol. 222(14), pages 2291-2313.
    6. Di Zhao & Junyu Dong & Shuping Ji & Miansong Huang & Quan Quan & Jian Liu, 2020. "Effects of Contemporary Land Use Types and Conversions from Wetland to Paddy Field or Dry Land on Soil Organic Carbon Fractions," Sustainability, MDPI, vol. 12(5), pages 1-15, March.
    7. Yang, Yuangen & He, Zhenli & Wang, Yanbo & Fan, Jinghua & Liang, Zhanbei & Stoffella, Peter J., 2013. "Dissolved organic matter in relation to nutrients (N and P) and heavy metals in surface runoff water as affected by temporal variation and land uses – A case study from Indian River Area, south Florid," Agricultural Water Management, Elsevier, vol. 118(C), pages 38-49.

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