Litcius/Paper detail

Water Erosion Monitoring and Prediction in Response to the Effects of Climate Change Using RUSLE and SWAT Equations: Case of R’Dom Watershed in Morocco

Abdennabi Alitane, Ali Essahlaoui, Mohammed El Hafyani, Abdellah El Hmaidi, Anas El Ouali, Amina Kassou, Yassine El Yousfi, Ann van Griensven, Celray James Chawanda, Anton Van Rompaey

2022Land63 citationsDOIOpen Access PDF

Abstract

Soil erosion is an increasingly issue worldwide, due to several factors including climate variations and humans’ activities, especially in Mediterranean ecosystems. Therefore, the aim of this paper is: (i) to quantify and to predict soil erosion rate for the baseline period (2000–2013) and a future period (2014–2027), using the Revised Universal Soil Loss Equation (RUSLE) and the Soil and Water Assessment Tool (SWAT) model in the R’Dom watershed in Morocco, based on the opportunities of Remote Sensing (RS) techniques and Geographical Information System (GIS) geospatial tools. (ii) we based on classical statistical downscaling model (SDSM) for rainfall prediction. Due to the lack of field data, the model results are validated by expert knowledge. As a result of this study, it is found that both agricultural lands and bare lands are most affected by soil erosion. Moreover, it is showed that soil erosion in the watershed was dominated by very low and low erosion. Although the area of very low erosion and low erosion continued to decrease. Hence, we hereby envisage that our contribution will provide a more complete understanding of the soil degradation in this study area and the results of this research could be a crucial reference in soil erosion studies and also may serve as a valuable guidance for watershed management strategies.

Topics & Concepts

Universal Soil Loss EquationDownscalingWatershedSoil and Water Assessment ToolEnvironmental scienceErosionHydrology (agriculture)SWAT modelMediterranean climateGeospatial analysisClimate changeWater resource managementRemote sensingGeographyDrainage basinEcologyStreamflowSoil lossCartographyGeologyComputer scienceArchaeologyGeotechnical engineeringBiologyMachine learningPaleontologySoil erosion and sediment transportHydrology and Watershed Management StudiesGroundwater and Watershed Analysis