Deep vadose zone respiration contributions to carbon dioxide fluxes from a semiarid floodplain

Tetsu K. Tokunaga, Yongman Kim, Mark E. Conrad, Markus Bill, Chad Hobson, Kenneth H. Williams, Wenming Dong, Jiamin Wan, Mark J. Robbins, Philip E. Long, Boris Faybishenko, John N. Christensen, Susan S. Hubbard

Research output: Contribution to journalArticlepeer-review

24 Scopus citations

Abstract

Although CO2 fluxes from soils are often assumed to originate within shallow soil horizons (<1-m depth), relatively little is known about respiration rates at greater depths. We compared measured and calculated CO2 fluxes at the Rifle floodplain along the Colorado River and measured CO2 production rates of floodplain sediments to determine the relative importance of deeper vadose zone respiration. Calculations based on measured CO2 gradients and estimated effective diffusion coefficients yielded fluxes that are generally consistent with measurements obtained at the soil surface (326 g C m−2 yr−1). Carbon dioxide production from the 2.0- to 3.5-m depth interval was calculated to contribute 17% of the total floodplain respiration, with rates that were larger than some parts of the shallower vadose zone and underlying aquifer. Microbial respiration rates determined from laboratory incubation tests of the sediments support this conclusion. The deeper unsaturated zone typically maintains intermediate water and air saturations, lacks extreme temperatures and salinities, and is annually resupplied with organic carbon from snowmelt-driven recharge and by water table decline. This combination of favorable conditions supports deeper unsaturated zone microbial respiration throughout the year.

Original languageEnglish
JournalVadose Zone Journal
Volume15
Issue number7
DOIs
StatePublished - Jul 2016
Externally publishedYes

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