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Estimation of Soil Water Balance Components Using an Iterative Procedure

Permanent URL:
http://handle.nal.usda.gov/10113/12756
File:
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Abstract:
Quantifying the hydrologic balance at high temporal resolution is necessary to evaluate field-scale management effects on soil water storage. Our objective was to develop and evaluate a hybrid procedure to estimate drainage, infiltration, and evaporation based on changes in plot-scale soil water storage on a Pullman clay loam. Soil water contents were monitored in 2005 at 0.5-h intervals on 12 plots instrumented with time-domain reflectometry probes at 0.05, 0.1, 0.15, 0.2, and 0.3 m depths, and weekly using a neutron moisture meter to a depth of 2.3 m in 0.2-m increments. During periods in August 2005 when either a plane of zero flux existed or when a wetting front penetrated into an upper soil layer at approximately 0.24 m, changes in soil water storage were used to iteratively fit hydraulic parameters to estimate soil water fluxes into and out of the control volume. Predicted hydraulic conductivities were not significantly different (p = 0.471) from hydraulic conductivities calculated using the iterative method during three other months in 2005 and yielded drainage rates that differed by less than 0.05 mm d-1 as compared to calculated changes in storage below the plane of zero flux. By considering the delayed response of water content measurements to precipitation inputs, cumulative infiltration and evaporation throughout a month with 103-mm precipitation could be estimated from the measured changes in soil water storage with expected uncertainties of ± 5 mm. The proposed procedure permits the indirect estimation of soil water balance components useful for comparing plot-scale treatments and overcomes some of the difficulties associated with weighing lysimeter and meterological approaches.
Author(s):
Schwartz, R.C. , Baumhardt, R.L. , Howell, T.A.
Subject(s):
soil water balance , estimation , clay loam soils , drainage , infiltration (hydrology) , evaporation , soil water content , hydraulic conductivity , soil water potential , precipitation , rain , mathematical models , soil water storage
Format:
p. 115-123.
Note:
Includes references
Source:
Vadose zone journal VZJ 2008 Feb., v. 7, no. 1
Language:
English
Year:
2008
Collection:
Journal Articles, USDA Authors, Peer-Reviewed
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.