Improved Prediction of Unsaturated Hydraulic Conductivity with the Mualem-van Genuchten Model

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DIVISION S-1-SOIL PHYSICS

Improved Prediction of Unsaturated Hydraulic Conductivity with the Mualem-van Genuchten Model

Marcel G. Schaap and Feike J. Leij

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

mschaap{at}ussl.ars.usda.gov

In many vadose zone hydrological studies, it is imperative thatthe soil's unsaturated hydraulic conductivity is known. Frequently,the Mualem–van Genuchten model (MVG) is used for thispurpose because it allows prediction of unsaturated hydraulicconductivity from water retention parameters. For this and similarequations, it is often assumed that a measured saturated hydraulicconductivity (K_s) can be used as a matching point (K_o) whilea factor S^L_e is used to account for pore connectivity and tortuosity(where S_e is the relative saturation and ). We used a data set of 235 soil samples with retention and unsaturatedhydraulic conductivity data to test and improve predictionswith the MVG equation. The standard practice of using and resulted in a root mean square error for log(K) (RMSE_K) of 1.31. Optimization of thematching point (K_o) and L to the hydraulic conductivity datayielded a RMSE_K of 0.41. The fitted K_o were, on average, aboutone order of magnitude smaller than measured K_s. Furthermore,L was predominantly negative, casting doubt that the MVG canbe interpreted in a physical way. Spearman rank correlationsshowed that both K_o and L were related to van Genuchten waterretention parameters and neural network analyses confirmed thatK_o and L could indeed be predicted in this way. The correspondingRMSE_K was 0.84, which was half an order of magnitude betterthan the traditional MVG model. Bulk density and textural parameterswere poor predictors while addition of K_s improved the RMSE_Konly marginally. Bootstrap analysis showed that the uncertaintyin predicted unsaturated hydraulic conductivity was about oneorder of magnitude near saturation and larger at lower watercontents.

Abbreviations: MVG, Mualem–van Genuchten model

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				T. J. Kelleners, R. W. O. Soppe, J. E. Ayars, J. Simunek, and T. H. Skaggs Inverse Analysis of Upward Water Flow in a Groundwater Table Lysimeter Vadose Zone J., July 18, 2005; 4(3): 558 - 572. [Abstract] [Full Text] [PDF]

				A. L. B. Hurtado and Q. de Jong van Lier Uncertainty of Hydraulic Conductivity under Field Conditions and at Fixed Pressure Heads and Water Contents Vadose Zone J., February 1, 2005; 4(1): 151 - 162. [Abstract] [Full Text] [PDF]

				S. Lambot, M. Antoine, I. van den Bosch, E. C. Slob, and M. Vanclooster Electromagnetic Inversion of GPR Signals and Subsequent Hydrodynamic Inversion to Estimate Effective Vadose Zone Hydraulic Properties Vadose Zone J., November 1, 2004; 3(4): 1072 - 1081. [Abstract] [Full Text] [PDF]

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				S. Bitterlich, W. Durner, S. C. Iden, and P. Knabner Inverse Estimation of the Unsaturated Soil Hydraulic Properties from Column Outflow Experiments Using Free-Form Parameterizations Vadose Zone J., August 1, 2004; 3(3): 971 - 981. [Abstract] [Full Text] [PDF]

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