6533b7d8fe1ef96bd126a2db
RESEARCH PRODUCT
A new expression of the slope length factor to apply USLE-MM at Sparacia experimental area (Southern Italy)
Vincenzo PampaloneVincenzo BagarelloVito Ferrosubject
Slope lengthVariablesmedia_common.quotation_subjectEmpirical modellingerosione idricaStormExpression (mathematics)Plot (graphics)StatisticsSettore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-ForestaliScale (map)Earth-Surface Processesmedia_commonEvent (probability theory)Mathematicsdescription
Abstract Predicting soil loss due to water erosion by empirical models is useful to assess the severity of the phenomenon in an area of interest and to predict the effect of alternative soil erosion control practices. The USLE scheme cannot be used at the Sparacia experimental area (Sicily, South Italy) to predict event soil loss per unit plot area, Ae, because experimental data suggest that, generally, Ae does not increase with plot length, λ. The USLE-MM scheme uses the runoff coefficient, QR, as an additional independent variable in order to develop an empirical model allowing prediction of storm soil loss values that do not necessarily increase with λ. According to this model, Ae is expected to increase with λ when the rest of factors do not vary between plots of different length, but an inverse relationship between these two variables can be predicted when QR decreases as λ increases, which is a common occurrence at the study area. Plot length was found to be enough to predict the mean QR for a set of erosive events. Testing the model with an independent data set supported its applicability for predictive purposes. Collecting additional plot data is necessary to develop simple plot QR predictive procedures at the event temporal scale.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2013-03-01 | CATENA |