Mapping of soil sensitivity to water erosion by RUSLE model: case of the Inaouene watershed (Northeast Morocco)

Mapping of soil sensitivity to water erosion by RUSLE model: case of the Inaouene watershed (Northeast Morocco)

The sources of land degradation in many watersheds are runoff and erosion. In order to delay this degradation resulting in the loss of soil fertility, a system for its quantification needs to be established. Erosion severely impacts our natural capital and requires several studies and prevention and...

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Bibliographic Details
Published in:Arabian journal of geosciences Vol. 13; no. 21
Main Authors: Brahim, Benzougagh, Meshram, Sarita Gajbhiye, Abdallah, Dridri, Larbi, Boudad, Drisss, Sadkaoui, Khalid, Mimich, Khedher, Khaled Mohamed
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-11-2020
Springer Nature B.V
Subjects:
Decision making
Earth and Environmental Science
Earth science
Earth Sciences
Embrittlement
Environmental degradation
Fertility
Geographic information systems
Geographical information systems
Information systems
Land degradation
Land use
Original Paper
Plant cover
Remote sensing
Runoff
Soil conservation
Soil erosion
Soil fertility
Soil water
Topography
Vegetation
Vegetation cover
Vulnerability
Water conservation
Water erosion
Watershed management
Watersheds
Morocco
GIS
Soil degradation
RUSLE model
Inaouene River
Water erosion
Watershed
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Summary:The sources of land degradation in many watersheds are runoff and erosion. In order to delay this degradation resulting in the loss of soil fertility, a system for its quantification needs to be established. Erosion severely impacts our natural capital and requires several studies and prevention and management steps. This research focuses on validating the revised universal soil loss equation (RUSLE) method through evidence from remote sensing (RS) and the Geographic Information System (GIS) in the watershed of the Inaouene river upstream of the Idriss 1st dam in the Taza region (northeast of Morocco). In this context, the approach adopted was performed, consists in combining the revised universal soil loss equation (RUSLE) to quantify erosion and GIS to spatialize the factors responsible for water erosion and soil loss (climate, soil, vegetation, and topography) GIS to produce a map of erosion risk. The results achieved show that the Inaouene watershed is characterized by an average climatic aggressiveness, a sparse vegetation cover without any safeguards, moderate to high erodible soils with a maximum ranging from 50 to 150 t/h/year. Topography characterized by high (50%) to moderately broken reliefs. The human intervention remains the most mattering factor in the embrittlement and the accentuation of the soils vulnerability for erosion for every dominant natural factor. The results of this study could be of use in prioritizing areas for soil conservation measures and watershed development and management. It is a tool for decision-makers, planners, and decision-makers in soil and water conservation decision-making to implement anti-erosion strategies to reduce the impact of erosion.
ISSN:1866-7511
1866-7538
DOI:10.1007/s12517-020-06079-y