Parameter Estimation Analysis of the Evaporation Method for Determining Soil Hydraulic Properties

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Parameter Estimation Analysis of the Evaporation Method for Determining Soil Hydraulic Properties

Ji $r$ í $S$ im $u$ nek^* and Martinus Th. van Genuchten

U.S. Salinity Lab., USDA-ARS, 450 West Big Springs Road, Riverside, CA 92507-4617

Ole Wendroth

Inst. for Soil Landscape Research, ZALF, Eberswalder Str. 84, D-15374 Müncheberg, Germany

*Corresponding author (JSimunek{at}ussl.ars.usda.gov).

ABSTRACT

Soil hydraulic properties are important parameters affectingwater flow in variably saturated soils. We estimated the hydraulicproperties from a laboratory evaporation experiment using botha parameter estimation method and the modified Wind method.The parameter estimation method combined a one-dimensional numericalsolution of the Richards equation with the Marquardt-Levenbergoptimization scheme. In our study we used both numerically generateddata and data measured in the laboratory. Two experiments werecarried out on 10-cm-high soil cores containing two differentsoils. Pressure heads inside the cores were measured with fivetensiometers, while evaporative water loss from the top wasdetermined by weighing the soil samples. The objective functionfor the parameter estimation analysis was defined in terms ofthe final total water volume in the core and pressure head readingsby one or several tensiometers. An analysis of numerically generateddata showed that the optimization method was most sensitiveto the shape factor (n) and the saturated water content ( ${theta}$ _s)and least to the residual water content ( ${theta}$ _r). Pressure headsmeasured close to the soil surface were found to be more valuablefor the parameter estimation technique than those measured atlower locations. The optimized hydraulic parameters correspondedclosely with those obtained using Wind's analysis. All optimizationsgave similar results for the soil hydraulic properties withinthe range of measured pressure heads (0 to –700cm). Extrapolationbeyond this range involved a high level of uncertainty becauseof high correlation between parameters ${theta}$ _r and n.

Received for publication August 15, 1997.

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				J. A. Vrugt, J. A. Vrugt, W. Bouten, H. V. Gupta, and J. W. Hopmans Toward Improved Identifiability of Soil Hydraulic Parameters: On the Selection of a Suitable Parametric Model Vadose Zone J., February 1, 2003; 2(1): 98 - 113. [Abstract] [Full Text] [PDF]

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				J.A. Vrugt, W. Bouten, and A.H. Weerts Information Content of Data for Identifying Soil Hydraulic Parameters from Outflow Experiments Soil Sci. Soc. Am. J., January 1, 2001; 65(1): 19 - 27. [Abstract] [Full Text]

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