Articles | Volume 13, issue 7
https://doi.org/10.5194/bg-13-1991-2016
https://doi.org/10.5194/bg-13-1991-2016
Research article
 | 
06 Apr 2016
Research article |  | 06 Apr 2016

A parameterization of respiration in frozen soils based on substrate availability

Kevin Schaefer and Elchin Jafarov

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Cited articles

Alm, J., Saarnio, S., Nykanen, H., Silvola, J., and Martikainen, P. J.: Winter CO2, CH4 and N2O fluxes on some natural and drained boreal peatlands, Biogeochemical, 44, 163–186, 1999
Brown, J., Ferrians Jr., O. J., Heginbottom, J. A., and Melnikov, E. S.: Circum-Arctic map of permafrost and ground-ice conditions, Boulder, CO: National Snow and Ice Data Center/World Data Center for Glaciology, Digital Media, 1997.
Davis, N.: Permafrost: A Guide to Frozen Ground in Transition, University of Alaska Press, Fairbanks, Alaska, 2001.
Denning, A. S., Collatz, G. J., Zhang, C., Randall, D. A., Berry, J. A., Sellers, P. J., Colello, G. D., and Dazlich, D. A.: Simulations of Terrestrial Carbon Metabolism and Atmospheric CO2 in a General Circulation Model, Part 1: Surface Carbon Fluxes, Tellus, 48, 521–542, 1996.
Dutta, K., Schuur, E. A. G., Neff, J. C., and Zimov, S. A.: Potential carbon release from permafrost soils of Northeastern Siberia, Glob. Change Biol., 12, 2336–2351, 2006.
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Short summary
Respiration in frozen soils is limited to within the thin water films surrounding soil particles. We parameterize volumetric water content (VWC) in frozen soil to represent the fraction of thawed carbon to simulate substrate availability. Simulated VWC and respiration match in situ and soil incubation data. The parameterization is most applicable when simulating carbon dynamics in permafrost for time scales of 100 years or greater.
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