Abstract
The soil erosion factor, erodibility, measures the susceptibility of soil particles to transport and detachment by erosive agents. Soil erosion and sedimentation models use soil properties and erodibility as the main input. However, in developing countries such as Ethiopia, data on soil erosion and soil-related properties are limited. For this reason, different researchers use different data sources that are adopted from a large scale and come with very different results. For this reason, the study was proposed to analyze and map the soil erodibility of the catchment area using primary data. 80 mixed soil samples were taken from the catchment with GPS coordinates and analyzed in the laboratory for soil texture class and soil organic matter. Accordingly, sandy clay loam is a dominant soil texture class covering 65% of the catchment area with 2.46% average soil organic matter, which is high in the mountainous part and lower in the lower valley of the catchment area. Most of the catchment area, which accounts for more than 78% of the area, was dominated by medium- or coarse-grained soil structure, and in the upper parts of the catchment area, 21% of the catchment area was covered with fine-grained soil structure. Similarly, 66% of the catchment area was covered with slow to moderate soil permeability, followed by slow soil permeability covering 21% of the area. Finally, the soil erodibility value of the Gilgel Gibe-I catchment was determined to be 0.046 ton h·MJ−1·mm−1 with a range of 0.032 to 0.063 ton·h·MJ−1·mm−1. In general, soils with slow permeability, high silt content, and medium- to fine-grained soil structures are the most erodible. They are conveniently separate; they tend to crust and form high drainage. Knowing this, the catchment has a moderate soil erodibility value. Thus, the study recommends evidence of land cover and the protection of arable land through suitable soil and water protection measures to improve soil permeability and soil structure.
Highlights
Erodibility defines the soil’s resistance to detachment and transport
Spatial maps of the soil texture class, soil organic matter, soil structure, and soil permeability assessment of the catchment area were created by interpolation in an Arc-GIS environment with a resolution of 30 m cell size
Soil texture is an essential characteristic that contributes to the erodibility of the soil
Summary
Erodibility defines the soil’s resistance to detachment and transport. Soil resistance to erosion depends on topography, land slope, and soil disturbance [1]. Soil degradation is determined by natural limiting factors: unbalanced size, composition, reduced amount of humus, continental climate, and anthropogenic factors that are mainly due to classical agriculture [4]. It measures the susceptibility of soil particles to transport and detachment based on rainfall and runoff [5]; and it is known that the best eroded soil particles are silt and very fine sand, and the less erodible soil particles are aggregated soils because they grow together, making them more resilient [6]
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