Abstract
BackgroundLand degradation through soil erosion by water is severe in the highlands of Ethiopia. In order to curb this problem, the government initiated sustainable land management interventions in different parts of the country since 2008, and in Geda watershed since 2012. However, the impacts of the interventions on soil properties were not assessed so far. Thus, this study investigated the impacts of sustainable land management interventions on selected soil properties in Geda watershed. Soil samples were collected from treated and untreated sub-watersheds at the upper and lower landscape positions, from cropland and grazing lands at two soil depths (0–15 cm and 15–30 cm). Selected soil physicochemical properties were assessed with respect to landscape position, land-use type, and soil depth in both treated and untreated sub-watersheds.ResultsGenerally, most of the soil physicochemical properties differed greatly across sub-watersheds, land-use types, and soil depths. Clay, electrical conductivity, total N, available P, exchangeable K, and organic carbon were higher in the treated sub-watershed, whereas sand, silt, bulk density, and pH were higher in the untreated sub-watershed. The higher sand, silt, and bulk density could be attributed to erosion, while the higher pH could be due to the higher exchangeable Na in the untreated sub-watershed. Most of the selected soil chemical properties were not affected by landscape position, but land-use type affected available P and organic carbon with higher mean values at croplands than at grazing lands, which could be ascribed to the conservation structure and tillage of the soils in that conservation structures trap and accumulate transported organic materials from the upper slope, while tillage facilitates aeration and decomposition processes.ConclusionSustainable land management interventions improved soil physicochemical properties and brought a positive restoration of the soil ecosystem. Maintaining the soil conservation measures and enhancing community awareness about the benefits, coupled with management of livestock grazing are required to sustain best practices.
Highlights
Land degradation through soil erosion by water is severe in the highlands of Ethiopia
More than 500 million US dollars have been invested in the Productive Safety Net Program since 2005, and huge financial resources have been invested in the Sustainable Land Management Program (SLMP) since 2008 for soil and water conservation (SWC) practices (Adimassu et al 2017)
A higher mean value of 55.83% sand was observed at 0–15-cm depth in the upper landscape position, while a higher mean value of 37.67% silt was recorded at the subsurface 15–30-cm depth of the lower part of the untreated subwatershed
Summary
Land degradation through soil erosion by water is severe in the highlands of Ethiopia. This study investigated the impacts of sustainable land management interventions on selected soil properties in Geda watershed. Selected soil physicochemical properties were assessed with respect to landscape position, land-use type, and soil depth in both treated and untreated sub-watersheds. It is estimated that the cost of land degradation in Ethiopia reaches 23% of the country’s GDP (Kirui and Mirzabaev 2015). To curb this severe land degradation, the government of Ethiopian launched massive rehabilitation programs starting from the mid-1970s (Ebabu et al 2017; Adimassu et al 2017). Due to the low success rate of restoration works done between 1976 and 1990 (Gashaw 2015), the approach of rehabilitation works was modified to integrate watershed-based interventions as of the 1980s (Ebabu et al 2017; Gashaw et al 2017), which has been extensively implemented by the government and non-government organizations
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