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Morphometric Analysis, Watershed Prioritization And Annual Soil Loss Estimation Using Gis And Rusle Techniques: The Case Of Guder And Dabus Sub-Basins.

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dc.contributor.author Iyasu Milkias
dc.contributor.author Fiseha Behulu
dc.contributor.author Fayera Gudu
dc.date.accessioned 2023-06-07T08:06:16Z
dc.date.available 2023-06-07T08:06:16Z
dc.date.issued 2020-02
dc.identifier.uri https://repository.ju.edu.et//handle/123456789/8159
dc.description.abstract Soil erosion is dramatically increasing and accelerating in developing countries like Ethiopia. It has worrisome economic and environmental impacts and causes nutrient loss on agricultural land, sedimentation in rivers and reservoirs, clogged canals and other water supply systems. Determination critical erosion prone area and calculating soil loss rate in upper Blue Nile sub-basin watershed is an important priority for prioritizing the area for watershed management practices in order to reduce soil erosion. Watershed prioritization has gained importance in natural resources management, especially in the context of watershed management. Basin morphometric analysis is a means of mathematically quantifying different aspects of a drainage basin. In present study, Morphometric analysis and prioritization of the sub-watersheds and soil loss estimation for significantly affected area have been done. The model has been used to assess the hydrological characteristics and soil erosion potentials based on the morphological characteristics. The study was carried out using DEM data 30mX30m resolution in GIS environment, rainfall, soil data, and land use land cover. Morphometric analysis was carried out for linear, shape and relief aspects. Under linear aspect bifurcation ratio, drainage density, stream frequency, drainage texture ratio and length of over land flow were analyzed. Under shape aspect; elongation ratio, circularity ratio, form factor and constant channel maintenance were evaluated. Finally, under relief aspect; basin relief, relief ratio, ruggedness number and relative ratio have been analyzed. The compound factor for sub-watersheds of both Guder and Dabus sub-basin have been calculated and classified into erosion tolerance class. Accordingly, the G-7(one of the sub-watersheds) has been the first ranked and classified under high erosion severe class with compound factor value of 2.82. To estimate annual soil loss of the G-7 sub-watershed, Revised Universal Soil Loss Equation (RUSLE) with the ArcGIS 10.3 integration have been used. RUSLE parameters such us rainfall erositivity(R-factor), soil erodibility(K-factor), slope length and slope steepness(LS factor), cover management (C-factor) and support practice(P-factor) have been calculated and used as data input in annual soil loss calculation. By integrating these five map layers in GIS raster calculator, the required spatially distributed annual average soil loss rate was determined. Accordingly, the result of the analysis for the existed conditions depicted that the amount of soil loss ranges from 0 to 167.47ton ha-1 yr-1 with average annual soil loss rate of 15.34ton ha-1 yr-1 from the whole catchment. Totally the annual soil loss of the watershed was found to be 3,617,172ton. Such losses could threaten the sustainability of land productivity in the study area and at the same time, excessive sedimentation and eutrophication problem at the downstream proposed reservoirs on Guder River and also on Ethiopian Great Renaissance Dam. en_US
dc.language.iso en_US en_US
dc.subject ; Morphometric analysis, watershed Prioritization, soil loss modeling, ArcGIS and RUSLE techniques. en_US
dc.title Morphometric Analysis, Watershed Prioritization And Annual Soil Loss Estimation Using Gis And Rusle Techniques: The Case Of Guder And Dabus Sub-Basins. en_US
dc.type Thesis en_US


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