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Effects of Soil Physical Nonuniformity on Chamber-Based Gas Flux Estimates

Abstract::: Chamber methods for measuring trace gas fluxes are prone to errors resulting in large part from the alteration of near-surface concentration gradients. There is little information available, however, for quantifying these errors or determining how they vary with soil physical properties, chamber deployment methods, and flux calculation schemes. This study used numerical modeling to examine how these factors influence flux estimate errors in physically uniform and nonuniform soil profiles. Errors varied widely among profiles and flux calculation techniques. Soil profiles having identical predeployment fluxes but differing in water content and bulk density generated substantially different flux chamber data. A theoretical flux model that assumes physical uniformity performed relatively well in nonuniform soils but still generated substantial errors. For all flux models, errors were minimized with larger effective chamber heights (h) and shorter deployment times (DT). In light of these findings, recent studies that recommend minimizing h and extending DT to enhance nonlinearity of chamber data need to be reevaluated. It was also determined that random measurement error can result in skewed flux-estimate errors. Selection of chamber and flux calculation methods should consider the physical characteristics of the soil profile as well as measurement error. The techniques presented here can be used to develop soil- and method-specific error estimates.
Author(s):: Venterea, Rodney T. , Baker, John M.
Subject(s):: soil profiles , gas emissions , measurement , accuracy , agricultural soils , tillage , greenhouse gases , mathematical models , equations , simulation models , bulk density , soil water content , diffusivity , porosity
Description:: Includes references
Source:: Soil Science Society of America journal 2008 Sept-Oct, v. 72, no. 5
Language:: English
Year:: 2008
Collection:: Journal Articles, USDA Authors, Peer-Reviewed
File:: Download [PDF]
Rights:: Works produced by employees of the U.S. Government as part of their official duties are not copyrighted within the U.S. The content of this document is not copyrighted.