Enset-based land use land cover change detection and its impact on soil erosion in Meki river watershed, Western Lake Ziway Sub-Basin, Central Rift Valley of Ethiopia

Background Water erosion, upland degradation and deforestation are key environmental problems in the Meki river watershed. The study assessed the land use land cover change (LULCC) for 30 years and it examined the contribution of indigenous Enset-based land use system (EBLUS) to reduce soil erosion...

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Bibliographic Details
Published in:Environmental systems research 2020-11, Vol.9 (1), p.1-23, Article 37
Main Authors: Woldesenbet, Alemu Beyene, Wudmatas, Sebsebe Demisew, Denboba, Mekuria Argaw, Gebremariam, Azage Gebreyohannes
Format: Article
Language:English
Subjects:
Agricultural practices
Change detection
Deforestation
Earth and Environmental Science
Enset
Environment
Farm management
Geostatistics
Global positioning systems
GPS
Interpolation
Lakes
Land cover
Land use
Land use policy
Meki-river-watershed
Monitoring/Environmental Analysis
Natural environment
Rift valleys
Rivers
RUSLE
Satellite navigation systems
Sedimentation
Sedimentation & deposition
Slopes
Soil erosion
Soil water
Soil-loss
Sustainability
Water erosion
Watershed management
Watersheds
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Summary:Background Water erosion, upland degradation and deforestation are key environmental problems in the Meki river watershed. The study assessed the land use land cover change (LULCC) for 30 years and it examined the contribution of indigenous Enset-based land use system (EBLUS) to reduce soil erosion and prevent water bodies including Lake Ziway from sedimentation which was not considered in the former studies. GPS based data collected and satellite based LULC analysis using ERDAS Imagine 2014 performed to investigate existing farm management practices and land cover respectively. HEC-GEOHMS, Geo-statistical interpolation and RUSLE were applied to model watershed characteristics, spatial climate parameters and soil loss respectively. Result Meki river watershed (2110.4 km 2 of area) is dominantly covered by cultivated LUS (41.5%), EBLUS (10.65%), Bush and Chat LUS (25.6%), Forest and plantations LUS (14.14%), built-up (7.4%) and water bodies (0.75%). Soil loss is increasing from 1987 to 2017 and a larger part of the watershed suffers a moderately severe to very severe risk (18 t ha −1 year −1 to > 80 t ha −1 year −1 ) in all sub-watersheds irrespective of the land use systems which shows the watershed is facing sever degradation problem. The mean soil loss of 30.5 t ha −1 year −1 3 and 31.905 t ha −1 year −1 are verified from Enset growing zones and non-Enset growing zones of the watershed respectively. Conclusion EBLUS saves significant amount of soil despite the steepness of the slopes of the Enset growing zones of the watershed. Hence, expansion of EBLUS can contribute in sustaining water bodies, including Lake Ziway by reducing soil loss rate and sedimentation problem for the ecological sustainability of the watershed. Therefore, separate land use policy and awareness creation are mandatory for such EBLUS expansion, sustainable watershed management interventions and conservation of the natural environment in the watershed based on its suitability and severity of erosion risk mapping.
ISSN:2193-2697
2193-2697
DOI:10.1186/s40068-020-00198-x