4.6 Article

Soil Erosion in a Changing Environment over 40 Years in the Merguellil Catchment Area of Central Tunisia

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APPLIED SCIENCES-BASEL
卷 13, 期 21, 页码 -

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MDPI
DOI: 10.3390/app132111641

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water erosion; GIS; remote sensing; gross soil loss; sediment yield

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This study evaluates the impacts of environmental changes on soil erosion and sediment yield in the Merguellil watershed in Central Tunisia over the past forty years. The results show that the combined impact of land use change and soil and water conservation techniques has resulted in a slight decrease in soil erosion and sediment yield. However, the predictions suggest that further degradation of natural vegetation and a reduction in the efficiency of soil and water conservation works may lead to a slight increase in soil erosion and sediment yield.
Soil degradation and erosion in semi-arid regions can significantly impact agricultural development, environmental sustainability, and hydrological balance. Understanding the impacts of land use changes and soil and water conservation (SWC) technique implementation on soil erosion and sediment yield is critical to planning effective watershed management. This study aims to evaluate the impacts of environmental changes in the Merguellil watershed (Central Tunisia) over the last forty years. To achieve this, remote sensing techniques and a geographic information system (GIS) will be employed to classify Landsat images from 1980 to 2020. Additionally, the Revised Universal Soil Loss Equation model will be utilized to estimate soil erosion rates, while the sediment delivery distributed model will be employed for sediment yield modeling. Spatiotemporal changes in land use and land cover and in areas treated with SWC techniques were analyzed as the main factors influencing changes in erosion and sediment yield. The combined impact of land use change and SWC techniques resulted in a decrease in the annual soil erosion rate from 18 to 16 t/ha/year between 1980 and 2020 and in sediment yield from 9.65 to 8.95 t/ha/year for the same period. According to the model's predictions, both soil erosion and sediment yield will experience a slight increase with further degradation of natural vegetation and a reduction in the efficiency of SWC works. This emphasizes the importance of continued efforts in adopting and sustaining SWC techniques, as well as preserving natural vegetation cover, to proactively combat soil degradation and its adverse effects on the environment and communities. Continuous dedication to these measures is crucial to preserving our ecosystem, promoting sustainable practices, and protecting the well-being of both the environment and society.

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