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Infiltration model for center pivot irrigation on bare soil

King, B.A. and Bjorneberg, D.L. (2012) Infiltration model for center pivot irrigation on bare soil. ASABE Annual International Meeting. 2012:1-20. 29 July 2012.

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Abstract

The marked reduction in infiltration rate caused by formation of a soil surface seal due to water droplet impact on bare soil is a well known phenomenon but is rarely considered in infiltration models, especially under center pivot irrigation. The objective of this study was to develop a soil infiltration model for center pivot sprinkler irrigation that incorporates the transient reduction in soil surface seal hydraulic conductivity as affected by soil and sprinkler characteristics. A sealing soil infiltration model was developed using an explicit finite difference solution scheme with a transient soil seal formation model, which is unique from other studies in that it explicitly uses droplet specific power as the driving factor for formation of a soil surface seal. The model was calibrated to four specific soils using published and laboratory runoff data from rainfall simulation studies with varying droplet kinetic energies and application rates. The model was then applied to center pivot irrigation for five common sprinklers to evaluate the effect sprinkler selection has on infiltration. Due to the high susceptibility of the soils to surface sealing from water drop impact, the sprinkler with the largest wetted diameter was predicted to maximize infiltration. If a center pivot sprinkler irrigation system is operated over a bare soil at the application rates used in this study, a surface seal is going to form, and the only way to maximize infiltration depth is to apply the water over the largest time interval possible.

Item Type: Article
NWISRL Publication Number: 1434
Subjects: Irrigation > Sprinkler irrigation
Irrigation > Sprinkler irrigation > Infiltration
Irrigation > Sprinkler irrigation > Center pivot
Depositing User: Users 6 not found.
Date Deposited: 05 Sep 2012 15:26
Last Modified: 05 Sep 2012 15:27
Item ID: 1469
URI: https://eprints.nwisrl.ars.usda.gov/id/eprint/1469