Litcius/Paper detail

Inherent relationship of the USLE, RUSLE topographic factor algorithms and its impact on soil erosion modelling

Nikolaos Efthimiou, E. Lykoudi, Emmanouil Psomiadis

2020Hydrological Sciences Journal28 citationsDOI

Abstract

The accurate representation of the Earth’s surface plays a vital role in soil erosion modelling. Topography is parameterized in the Universal Soil Loss Equation (USLE) and Revised USLE (RUSLE) by the topographic (LS) factor. For slope gradients of < 20%, soil loss values are similar for both models, but when the gradient is increased, RUSLE estimates are only half of those of USLE. The study aims to assess the validity of this statement for complex hillslope profiles. To that end, both models were applied at eight diverse mountainous sub-watersheds. The USLE and RUSLE indices were estimated utilizing the SEAGIS model and a European dataset, respectively. LS factors were in a 3:1 ratio (i.e. USLE:RUSLE) considering the entire basin area. For areas with slopes <20%, gross erosion estimates of both models converged. Sites of strong relief (>20%) USLE yielded significantly higher values than RUSLE.

Topics & Concepts

Universal Soil Loss EquationErosionEnvironmental scienceHydrology (agriculture)Soil lossSoil scienceMathematicsGeologyGeomorphologyGeotechnical engineeringSoil erosion and sediment transportHydrology and Sediment Transport ProcessesHydrology and Watershed Management Studies