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Evidence for non-steady-state carbon emissions from snow-scoured alpine tundra

Author

Listed:
  • John F. Knowles

    (University of Colorado Boulder
    The University of Arizona)

  • Peter D. Blanken

    (University of Colorado Boulder)

  • Corey R. Lawrence

    (U.S. Geological Survey)

  • Mark W. Williams

    (University of Colorado Boulder
    University of Colorado Boulder)

Abstract

High-latitude warming is capable of accelerating permafrost degradation and the decomposition of previously frozen carbon. The existence of an analogous high-altitude feedback, however, has yet to be directly evaluated. We address this knowledge gap by coupling a radiocarbon-based model to 7 years (2008–2014) of continuous eddy covariance data from a snow-scoured alpine tundra meadow in Colorado, USA, where solifluction lobes are associated with discontinuous permafrost. On average, the ecosystem was a net annual source of 232 ± 54 g C m−2 (mean ± 1 standard deviation) to the atmosphere, and respiration of relatively radiocarbon-depleted (i.e., older) substrate contributes to carbon emissions during the winter. Given that alpine soils with permafrost occupy 3.6 × 106 km2 land area and are estimated to contain 66.3 Pg of soil organic carbon (4.5% of the global pool), this scenario has global implications for the mountain carbon balance and corresponding resource allocation to lower elevations.

Suggested Citation

  • John F. Knowles & Peter D. Blanken & Corey R. Lawrence & Mark W. Williams, 2019. "Evidence for non-steady-state carbon emissions from snow-scoured alpine tundra," Nature Communications, Nature, vol. 10(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09149-2
    DOI: 10.1038/s41467-019-09149-2
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