Nondimensional Relationship for Root Water Uptake in Crops

AbstractRoot water uptake is often modeled as a sink term in the Richards equation to account for evapotranspiration losses. The sink term is assumed to be a power law function in the nonlinear root uptake model (O-R model) to account for the decrease in root density and water uptake with depth. In...

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Bibliographic Details
Published in:Journal of irrigation and drainage engineering 2013-11, Vol.139 (11), p.961-964
Main Authors: Shankar, Vijay, Govindaraju, Rao S, Ojha, C. S. P, Hari Prasad, K. S
Format: Article
Language:English
Subjects:
Agricultural and forest climatology and meteorology. Irrigation. Drainage
Agricultural and forest meteorology
Agronomy. Soil science and plant productions
Biological and medical sciences
Fundamental and applied biological sciences. Psychology
General agronomy. Plant production
Irrigation. Drainage
Technical Note
Technical Notes
Water balance and requirements. Evapotranspiration
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Summary:AbstractRoot water uptake is often modeled as a sink term in the Richards equation to account for evapotranspiration losses. The sink term is assumed to be a power law function in the nonlinear root uptake model (O-R model) to account for the decrease in root density and water uptake with depth. In order to extend the O-R model to other crops without requiring detailed and time-consuming experiments, two important dimensionless numbers (specific transpiration, Ts, and specific root water uptake, T*) are identified based on readily available plant parameters. Data for determining the relationship between these numbers are obtained by minimizing the deviations between the field-observed moisture depletions of 28 crops reported in literature and the numerically simulated soil moisture depletions. Field experiments on three Indian crops—maize, Indian mustard, and wheat—are used for validation of the proposed empirical relationship. This relationship shows promise for use in the O-R model for root water uptake for a variety of crops.
ISSN:0733-9437
1943-4774
DOI:10.1061/(ASCE)IR.1943-4774.0000632