Spatial Averaging of van Genuchten Hydraulic Parameters for Steady-State Flow in Heterogeneous Soils: A Numerical Study

doi:10.2113/1.2.261

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Spatial Averaging of van Genuchten Hydraulic Parameters for Steady-State Flow in Heterogeneous Soils

A Numerical Study

Jianting Zhu and Binayak P. Mohanty^*

Biological and Agricultural Engineering Dep., Scoates Hall, Texas A&M University, College Station, TX 77843-2117
* Corresponding author (bmohanty{at}tamu.edu)

Received 7 November 2001.

For meso- or regional-scale Soil–Vegetation–AtmosphereTransfer (SVAT) schemes in hydroclimatic models, pixel dimensionsmay range from several hundred square meters to several hundredsquare kilometers. Pixel-scale soil hydraulic parameters andtheir accuracy are critical for the success of hydroclimaticand soil hydrologic models. This study tries to answer a majorquestion: What will be the effective and average hydraulic propertiesfor the entire pixel (or footprint of a remote sensor) consistingof several textures if the soil hydraulic properties can beestimated for each individual texture? In this study, we examinedthe impact of areal heterogeneity in soil hydraulic parameterson soil ensemble behavior for steady-state evaporation and infiltration.Using the widely used van Genuchten model and hydraulic parameterstatistics obtained from neural network–based pedotransferfunctions (PTFs) for various soil textural classes, we addressthe impact of areal hydraulic property heterogeneity on ensemblebehavior and uncertainty in steady-state vertical flow in large-scaleheterogeneous fields. The various averaging schemes of van Genuchtenparameters are compared with "effective parameters" calculatedby conceptualizing the areally heterogeneous soil formationas an equivalent homogeneous medium that will discharge approximatelythe same amount of ensemble flux of the heterogeneous soil.The impact of boundary conditions and parameter correlationon the effective parameters, as well as the accuracy and uncertaintyof the averaging schemes for the hydraulic parameters, are investigatedand discussed. In light of our results, we suggest the followingguidelines for van Genuchten hydraulic parameter averaging:arithmetic means for K_s and n, a value between arithmetic andgeometric means for ${alpha}$ when K_s and ${alpha}$ are highly correlated, anda value between geometric and harmonic means for ${alpha}$ when K_s and ${alpha}$ are poorly correlated.

Abbreviations: PTF, pedotransfer function • SVAT, Soil–Vegetation–Atmosphere Transfer

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				J. Zhu, M. H. Young, and M. Th. van Genuchten Upscaling Schemes and Relationships for the Gardner and van Genuchten Hydraulic Functions for Heterogeneous Soils Vadose Zone J., February 27, 2007; 6(1): 186 - 195. [Abstract] [Full Text] [PDF]

				H. Vereecken, R. Kasteel, J. Vanderborght, and T. Harter Upscaling Hydraulic Properties and Soil Water Flow Processes in Heterogeneous Soils: A Review Vadose Zone J., January 24, 2007; 6(1): 1 - 28. [Abstract] [Full Text] [PDF]

				J. Zhu, B. P. Mohanty, and N. N. Das On the Effective Averaging Schemes of Hydraulic Properties at the Landscape Scale Vadose Zone J., March 8, 2006; 5(1): 308 - 316. [Abstract] [Full Text] [PDF]

				J. Zhu and B. P. Mohanty Soil Hydraulic Parameter Upscaling for Steady-State Flow with Root Water Uptake Vadose Zone J., November 1, 2004; 3(4): 1464 - 1470. [Abstract] [Full Text] [PDF]

				J. Zhu, B. P. Mohanty, A. W. Warrick, and M. Th. van Genuchten Correspondence and Upscaling of Hydraulic Functions for Steady-State Flow in Heterogeneous Soils Vadose Zone J., May 1, 2004; 3(2): 527 - 533. [Abstract] [Full Text] [PDF]