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Soil Hydraulic Properties as Stochastic Processes: I. An Analysis of Field Spatial Variability¹

ABSTRACT

Determinations of the sorptivity (S) and five parameters describing the hydraulic conductivity [K(h)] and soil water retentivity [(h)] functions have been used to analyze the spatial distribution of the hydraulic properties in an experimental field. The parameters are: saturated hydraulic conductivity (K_s); water entry value (h_w); saturated (_s) and residual (_r) water contents; and a constant ß characterizing the pore size distribution of the soil. For a given depth, each of these parameters is described as a realization of a stationary two-dimensional isotropic and random process. These stochastic processes are characterized by truncated normal or log-normal probability density functions independent of the spatial position, and by autocorrelation functions between any two spatial points in the field which depend solely on the size of the vector separating the two points. The spatial variability of each of the six parameters has a structure that is characterized by a characteristic length—the integral scale, J, representing the largest distance for which the parameter is correlated with itself. Values of J, which are calculated from the autocorrelation functions for each parameter generally decrease with depth. On the average over depth the calculated values of J are 21, 44, 55, 25, 35, and 15 meters for the parameters K_s, h_w, _s, _r, S, and ß, respectively. The spatial variability of the hydraulic functions are described by the probability density functions and the autocorrelation functions. Since the integral scales of K(h) and (h) vary with both h and depth, the characteristic length of the field has been chosen as the integral scale of the weighted mean diffusivity which is 18 m.

¹ Contribution from the Agric. Res. Organization, The Volcani Center, Bet Dagan, Israel. 1979 series, no. 222-E. The research was supported by a grant from the U.S.—Israel Binational Science Foundation (BSF), Jerusalem, Israel.

² Graduate Research Assistant and Soil Physicist, respectively, Division of Soil Physics, ARO, Bet Dagan, Israel.

Received for publication September 4, 1979. Accepted for publication February 3, 1981.

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