Determining Soil Hydraulic Properties from One-step Outflow Experiments by Parameter Estimation: I. Theory and Numerical Studies

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Determining Soil Hydraulic Properties from One-step Outflow Experiments by Parameter Estimation: I. Theory and Numerical Studies¹

J. B. Kool, J. C. Parker and M. Th. van Genuchten²

ABSTRACT

The numerical feasibility of determining water retention andhydraulic conductivity functions simultaneously from one-steppressure outflow experiments on soil cores by a parameter estimationmethod is evaluated. Soil hydraulic properties are assumed tobe represented by van Genuchten's closed-form expressions involvingthree unknown parameters: residual moisture content ${theta}$ , and coefficients ${alpha}$ and n. These parameters are evaluated by nonlinear least-squaresfitting of predicted to observed cumulative outflow with time.Numerical experiments were performed for two hypothetical soilsto evaluate limitations of the method imposed by constraintsof uniqueness and sensitivity to error. Results indicate thatan accurate solution of the parameter identification problemmay be obtained when (i) input data include cumulative outflowvolumes with time corresponding to at least half of the finaloutflow and additionally the final outflow volume; (ii) finalcumulative outflow corresponds to a sufficiently large fraction(e.g., >0.5) of the total water between saturated and residualwater contents; (iii) experimental error in outflow measurementsis low; and (iv) initial parameter estimates are reasonablyclose to their true values.

NOTES

^¹ Contribution from the Dep. of Agronomy, Virginia PolytechnicInstitute and State Univ., Blacksburg, VA 24061 and U.S. SalinityLaboratory, 4500 Glenwood Dr., Riverside, CA 92501.

^² Research Associate and Associate Professor, Virginia PolytechnicInstitute and State Univ., Blacksburg, VA 24061, and ResearchSoil Scientist, U. S. Salinity Laboratory, respectively.

Received for publication November 20, 1984. Accepted for publication June 6, 1985.

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Determining Soil Hydraulic Properties from One-step Outflow Experiments by Parameter Estimation: I. Theory and Numerical Studies1

Determining Soil Hydraulic Properties from One-step Outflow Experiments by Parameter Estimation: I. Theory and Numerical Studies¹