Abstract Background Soil erosion is one of the major threats in the Ethiopian highlands. In this study, soil erosion in the Muga watershed of the Upper Blue Nile Basin (Abay) under historical and future climate and land use/land cover (LULC) change was assessed. Future LULC was predicted based on LULC map of 1985, 2002, and 2017. LULC maps of the historical periods were delineated from Landsat images, and future LULC was predicted using the CA–Markov chain model. Precipitation for the future period was projected from six regional circulation models. The RUSLE model was used to estimate the current and future soil erosion rate in Muga watershed. Results The average annual rate of soil erosion in the study area was increased from about 15 t h...
Soil erosion is one of the major factors affecting sustainability of agricultural production in Ethi...
The Suluh river basin is subjected to soil erosion due to land use and land cover change. Yet, the i...
AbstractIn the drought-prone Upper Blue Nile River (UBNR) basin of Ethiopia, soil erosion by water r...
Land use and land cover (LULC) change have intense implications on soil resources, that requires res...
Abstract The Blue Nile basin is one of the hot‐spots of soil erosion areas in Ethiopia. However, the...
In the Didessa river basin, which is found in Ethiopia, the human population number is increasing at...
In Ethiopia both the population and economy are growing rapidly, which results in land cover changes...
Soil erosion by water and wind is among the most crucial land degradation processes in Ethiopia. Thi...
Land use and land cover (LULC) dynamics, in general, and the conversion of the natural vegetation co...
Soil erosion by water often described as the most worst form of land degradation with serious enviro...
Erosion map of a watershed offers a wealth of knowledge and can be crucial for implementing site-spe...
Abstract Background Assessment of soil loss rates is crucial to sustainably enhance the benefits of ...
Abstract Background Land use/land cover (LU/LC) change is the challenging and continuous drivers of ...
Abstract Background Soil erosi...
Abstract Background Soil erosi...
Soil erosion is one of the major factors affecting sustainability of agricultural production in Ethi...
The Suluh river basin is subjected to soil erosion due to land use and land cover change. Yet, the i...
AbstractIn the drought-prone Upper Blue Nile River (UBNR) basin of Ethiopia, soil erosion by water r...
Land use and land cover (LULC) change have intense implications on soil resources, that requires res...
Abstract The Blue Nile basin is one of the hot‐spots of soil erosion areas in Ethiopia. However, the...
In the Didessa river basin, which is found in Ethiopia, the human population number is increasing at...
In Ethiopia both the population and economy are growing rapidly, which results in land cover changes...
Soil erosion by water and wind is among the most crucial land degradation processes in Ethiopia. Thi...
Land use and land cover (LULC) dynamics, in general, and the conversion of the natural vegetation co...
Soil erosion by water often described as the most worst form of land degradation with serious enviro...
Erosion map of a watershed offers a wealth of knowledge and can be crucial for implementing site-spe...
Abstract Background Assessment of soil loss rates is crucial to sustainably enhance the benefits of ...
Abstract Background Land use/land cover (LU/LC) change is the challenging and continuous drivers of ...
Abstract Background Soil erosi...
Abstract Background Soil erosi...
Soil erosion is one of the major factors affecting sustainability of agricultural production in Ethi...
The Suluh river basin is subjected to soil erosion due to land use and land cover change. Yet, the i...
AbstractIn the drought-prone Upper Blue Nile River (UBNR) basin of Ethiopia, soil erosion by water r...