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United States Department of Agriculture

Agricultural Research Service


Location: National Soil Erosion Research

Title: Estimation of USLE K-values with a process-based approach)

item Wu, Q
item Flanagan, Dennis
item Huang, Chi hua
item Wu, F

Submitted to: ASA-CSSA-SSSA Annual Meeting Abstracts
Publication Type: Abstract only
Publication Acceptance Date: 5/30/2013
Publication Date: 11/3/2013
Citation: Wu, Q., Flanagan, D.C., Huang, C., Wu, F. 2013. Estimation of USLE K-values with a process-based approach [abstract]. ASA-CSSA-SSSA Annual Meeting, November 3-6, 2013, Tampa, FL. 2013 CDROM.

Interpretive Summary:

Technical Abstract: The susceptibility of a soil to detachment by erosive agents is commonly referred to as the soil erodibility. In the Universal Soil Loss Equation (USLE), the K – erodibility factor is defined as the rate of soil loss per unit of the erosion index (EI) from a continuously tilled fallow plot 72.6 ft long on a 9% slope (unit plot). A soil erodibility nomograph, which allows rapid estimation of K values for different soils, was developed from both long-term natural runoff plots, as well as from rainfall simulation studies. However, the nomograph does not always provide good estimates for K, and this has been noted for soils with high clay contents. In this study, we utilize a combination of laboratory measurements and process-based WEPP erosion model simulations to back-calculate USLE/RUSLE K factors for two soils, a Miami silt loam from Indiana, and an Opal silty clay from South Dakota. Experiments included: 1) rainfall experiments to estimate WEPP interrill erodibility; 2) mini-flume experiments to estimate WEPP rill erodibility and critical shear stress. Erosion measurements were made under three soil moisture conditions: initially dry, pre-wetted then drained, and pre-wetted and saturated. Preliminary results show average Ki for the Miami silt loam was 6.44×106 kg/s/m-4 under initially dry soil conditions, 3.73×106 kg/s/m-4 under pre-wetted then drained conditions, and 3.80×106 kg/s/m-4 under saturated conditions. This soil was particularly vulnerable to soil loss when the dry soil aggregates disintegrated under rainfall and rapid wetting. For the Opal silty clay, average Ki values were 3.01×106, 1.23×106, and 4.00×106 kg/s/m-4 for the dry, drained, and saturated soil conditions, respectively, indicating that this South Dakota soil was most erodible under soil seepage conditions. Mini-flume studies and WEPP model simulations are in progress.

Last Modified: 8/24/2016
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