Near-Saturated Hydraulic Conductivity in Soils of Contrasting Texture Measured by Tension Infiltrometers

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Near-Saturated Hydraulic Conductivity in Soils of Contrasting Texture Measured by Tension Infiltrometers

N. J. Jarvis^* and I. Messing

Department of Soil Sciences, Swedish Univ. of Agricultural Sciences, Box 7072, 750 07 Uppsala, Sweden

* Corresponding author.

ABSTRACT

Soil structure is known to strongly affect water flow and solutetransport, yet little information is available concerning soilhydraulic properties close to saturation. This study reportsdetailed measurements of near-saturated hydraulic conductivityin undisturbed field soils. Steady-state infiltration ratesfrom tension infiltrometers were measured at the surface ofsix tilled soils of contrasting texture ranging from loamy sandto silty clay. Hydraulic conductivities (K) at supply pressureheads (h) in the range from – 100 mm to zero were obtainedusing Wooding's solution for infiltration from a circular source.The paired K,h data were summarized using the technique of functionalnormalization with three alternative models of K(h): a singleexponential function (Gardner's model), a two-line exponentialmodel, and the Mualem-van Genuchten model. The commonly usedsingle exponential model was found to be inappropriate in allcases. Both the two-line exponential and Mualem-van Genuchtenmodels satisfactorily described the data, with the former performingmarginally better for five of the six soils. In the supply pressurehead range – 100 mm to zero, K increased by three to fourorders of magnitude in the finer textured soils and by abouttwo orders of magnitude in two sandy soils. Estimates of field-saturatedhydraulic conductivity (K_fs) were largest in the fine-texturedsoils, presumably because of the influence of continuous surface-ventedmacropores. Spatial variability in measured K(h) was small tomoderate for all soils. Predicting unsaturated K from soil waterrelease data using K_fs as a matching point was shown to resultin serious overestimations.

Received for publication June 21, 1993.

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				M. Larsbo and N. Jarvis Simulating Solute Transport in a Structured Field Soil: Uncertainty in Parameter Identification and Predictions J. Environ. Qual., March 1, 2005; 34(2): 621 - 634. [Abstract] [Full Text] [PDF]

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				V. Bagarello, M. Iovino, and G. Tusa Factors Affecting Measurement of the Near-Saturated Soil Hydraulic Conductivity Soil Sci. Soc. Am. J., July 1, 2000; 64(4): 1203 - 1210. [Abstract] [Full Text]

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				W.D. Reynolds, B.T. Bowman, R.R. Brunke, C.F. Drury, and C.S. Tan Comparison of Tension Infiltrometer, Pressure Infiltrometer, and Soil Core Estimates of Saturated Hydraulic Conductivity Soil Sci. Soc. Am. J., March 1, 2000; 64(2): 478 - 484. [Abstract] [Full Text]

				M. Mecke, C.J. Westman, and H. Ilvesniemi Prediction of Near-Saturated Hydraulic Conductivity in Three Podzolic Boreal Forest Soils Soil Sci. Soc. Am. J., March 1, 2000; 64(2): 485 - 492. [Abstract] [Full Text]