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Thaw Transitions and Redox Conditions Drive Methane Oxidation in a Permafrost Peatland

Clarice R. Perryman, C. K. McCalley, Avni Malhotra, M. F. Fahnestock, N. N. Kashi, J. G. Bryce, Reiner Giesler, R. K. Varner

2020Journal of Geophysical Research Biogeosciences53 citationsDOIOpen Access PDF

Abstract

Abstract Permafrost peatlands are a significant source of methane (CH 4 ) emissions to the atmosphere and could emit more CH 4 with continued permafrost thaw. Aerobic methane‐oxidizing bacteria may attenuate a substantial fraction of CH 4 emissions in thawing permafrost peatlands; however, the impact of permafrost thaw on CH 4 oxidation is uncertain. We measured potential CH 4 oxidation rates (hereafter, CH 4 oxidation) and their predictors using laboratory incubations and in situ porewater redox chemistry across a permafrost thaw gradient of eight thaw stages at Stordalen Mire, a permafrost peatland complex in northernmost Sweden. Methane oxidation rates increased across a gradient of permafrost thaw and differed in transitional thaw stages relative to end‐member stages. Oxidation was consistently higher in submerged fens than in bogs or palsas across a range of CH 4 concentrations. We also observed that CH 4 oxidation increased with decreasing in situ redox potential and was highest in sites with lower redox potential (Eh < 10 mV) and high water table. Our results suggest that redox potential can be used as an important predictor of CH 4 oxidation, especially in thawed permafrost peatlands. Our results also highlight the importance of considering transitional thaw stages when characterizing landscape‐scale CH 4 dynamics, because these transitional areas have different rates and controls of CH 4 oxidation relative to intact or completely thawed permafrost areas. As permafrost thaw increases the total area of semiwet and wet thaw stages in permafrost peatlands, CH 4 oxidation represents an important control on CH 4 emissions to the atmosphere.

Topics & Concepts

PermafrostPeatAnaerobic oxidation of methaneMireMethaneEnvironmental chemistryBogRedoxEnvironmental scienceChemistryGeologyEcologyOceanographyInorganic chemistryBiologyOrganic chemistryPeatlands and Wetlands EcologyClimate change and permafrostMethane Hydrates and Related Phenomena
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