Modeling Soil Water Uptake by Plants Using Nonlinear Dynamic Root Density Distribution Function
Publication: Journal of Irrigation and Drainage Engineering
Volume 134, Issue 4
Abstract
Water uptake by plants is one of the major components of water balance of the vadose zone that greatly influences the contaminant and moisture movement in variably saturated soils. In this study, a nonlinear macroscopic root water uptake model that includes the impact of soil moisture stress is developed. The model incorporates the spatial and temporal variation of root density in addition to the dynamic root depth considerations. The governing moisture flow equation coupled with the water extraction by plants term is solved numerically by an implicit finite-difference method. The simulation is performed for various physical scenarios subjected to different boundary conditions. The model is tested first without considering the water uptake and results are compared with observed data available in the literature for two cases. A nonlinear water uptake term is subsequently incorporated in the model which is then simulated for corn crop for constant root depth under various characteristic moisture availability environments. Results show that the water extraction rate is closely related to the soil moisture availability in addition to the root density. The plants are observed to extract moisture mainly from the upper root dense soil profile when water content is in an optimal range, otherwise, the peak of the uptake moves to other soil layers where the moisture is easily available. Finally, the model is applied to a corn field and simulated results are validated with field data. The simulated moisture content for 2 months of crop growing season shows a reasonably good agreement with the observed data.
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Acknowledgments
The writers acknowledge the Commission of the European Union for extending the financial support to this research as part of the EU-Asia Link Project. They are also grateful to Maarten A. Siebel, UNESCO-IHE Institute for Water Education, The Netherlands, for his valuable contribution to this work.EU
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© 2008 ASCE.
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Received: Jun 25, 2007
Accepted: Oct 4, 2007
Published online: Aug 1, 2008
Published in print: Aug 2008
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