Soil & Water Res., 2009, 4(10):S6-S13 | DOI: 10.17221/482-SWR

Retention curves of soil from the liz experimental catchment obtained by three methods

Michal SNĚHOTA1, Matej DUBOVEC1, Michal DOHNAL2, Milena CÍSLEROVÁ1
1 Department of Irrigation, Drainage and Landscape Engeneering, Faculty of Civil Engineering, Czech Technical University in Prague, Prague, Czech Republic;
2 Department of Hydraulics and Hydrology, Faculty of Civil Engineering, Czech Technical University in Prague, Prague, Czech Republic

The retention curves were measured in the soil from the Liz experimental catchment (Šumava). The sand table and pressure extractor methods were used to obtain a 13-point retention curve for undisturbed soil samples taken from 6 depths. The data points of the individual retention curves were fitted in with the analytical expression of and the reference retention curves were calculated for each depth by scaling. For the same soil, the retention curves were estimated by the artificial neural network method by and the use of the empirical Pedotransfer function. The numerical experiment, which represented the infiltration and redistribution processes, was conducted using of all three sets of retention curves. Simulated water storages and pressure fields obtained using two sets of estimated parameters produced similar results, however they did not approximate well the modelling results obtained with the use of the measured reference parameter set. Of the two sets of pedotransfer functions (PTFs), which have been tested in this study, the empirical PTF of showed a slightly better agreement with the measured retention curves. The results give a guideline for the application of the retention curves estimation by the pedotransfer function for the soil from the Liz catchment.

Keywords: retention curve; hydraulic properties; numerical experiment; pedotransfer functions; neural networks

Published: December 31, 2009  Show citation

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SNĚHOTA M, DUBOVEC M, DOHNAL M, CÍSLEROVÁ M. Retention curves of soil from the liz experimental catchment obtained by three methods. Soil & Water Res. 2009;4(Special Issue 2):S6-13. doi: 10.17221/482-SWR.
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    References

    1. Dirksen C. (1991): Unsaturated hydraulic conductivity. In: Soil Analysis, Physical Methods. Marcel Dekker Inc., New York, 209-263.
    2. Guber A.K., Pachepsky Y.A., van Genuchten M.Th., Rawls W.J., Simunek J., Nicholson J.D., Cady R.E. (2006): Field-scale water flow simulations using ensembles of pedotransfer functions for soil water retention. Vadose Zone Journal, 5: 234-247. Go to original source...
    3. Gupta S.C., Larson W.E. (1979): Estimating soil water retention characteristics from particle size distribution, organic matter percent, and bulk density. Water Resources Research, 15: 1633-1635. Go to original source...
    4. Klute A. (1986): Methods of Soil Analysis, Part 1 Physical and Mineralogical Methods. Agronomy. American Society of Agronomy, Inc., Soil Science Society of America, Inc., Madison, 635-662. Go to original source...
    5. Schaap M.G., Leij F.J., van Genuchten M.Th. (1998): Neural network analysis for hierarchical prediction of soil water retention and saturated hydraulic conductivity. Soil Science Society of America Journal, 62: 847-855. Go to original source...
    6. Schaap M.G., Leij F.J., van Genuchten M. Th. (2001): Rosetta: a computer program for estimating soil hydraulic parameters with hierarchical pedotransfer functions. Journal of Hydrology, 251: 163-176. Go to original source...
    7. Simunek J., van Genuchten M.Th. (1996): Estimating unsaturated soil hydraulic properties from tension disc infiltrometer data by numerical inversion. Water Resources Research, 32: 2683-2696. Go to original source...
    8. Tesař M., Balek J., Šír M. (2006): Hydrological research in the Volynka basin (Bohemian Forest, Czech Republic. Journal of Hydrology and Hydromechanics, 54: 137-150 (in Czech)
    9. van Genuchten M.Th. (1980): A closed form for predicting the hydraulic conductivity of unsaturated soil. Soil Science Society of America Journal, 44: 892-898. Go to original source...
    10. Vogel T., Císlerová M., Hopmans J.W. (1991): Porous media with linearly variable hydraulic properties. Water Resources Research, 27: 2735-2741. Go to original source...
    11. Vogel T., Huang K., Zhang R., van Genuchten M. Th. (1996): The HYDRUS code for simulating OneDimensional Water Flow, Solute Transport, and Heat Movement in Variably-Saturated Media, Version 5.0. [Research Report No. 140.] U.S. Salinity Lab., ARS, USDA, Riverside.
    12. Vogel T., Gerke H.H., Zhang R., van Genuchten M.Th. (2000): Modelling flow and transport in a twodimensional dual-permeability system with spatially variable hydraulic properties. Journal of Hydrology, 238: 78-89. Go to original source...
    13. Vogel T., van Genuchten M. Th., Císlerová M. (2001): Effects of the shape of the soil hydraulic functions near saturation on variably-saturated flow predictions. Advances in Water Resources, 24: 133-144. Go to original source...
    14. Wösten J.H.M., Lilly A., Nemes A., Bas C.L. (1999): Development and use of a database of hydraulic properties of European soils. Geoderma, 90: 169-185. Go to original source...
    15. Zhang Z.F., Ward A.L., Gee G.W. (2003): Estimating soil hydraulic parameters of a field drainage experiment using inverse techniques. Vadose Zone Journal, 2: 201-211. Go to original source...

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