Effect of soil bunds on runoff, soil and nutrient losses, and crop yield in the central highlands of Ethiopia. Ethiopian Journal of Applied Sciences & Technology, 2(1): 39-49.Īdimassu Z, Mekonnen K, Yirga C, et al.2014. Runoff, soil loss and their relationships under different land uses in the central highlands of Ethiopia. Agricultural Water Management, 117: 55-61.Īdimassu Z, Haile N.2011. Impacts of long-term soil and water conservation on agricultural productivity: The case of Anjenie watershed, Ethiopia. The first and fourth authors contributed equally to this work.Īdgo E, Teshome A, Mati B.2013. This understanding will support policy development to promote the adoption of suitable techniques that can be tested at other locations with similar soil, climatic, and topographic conditions.Īgro-ecology drought-prone runoff coefficient runoff conservation efficiency Ethiopia Our results highlight the need to understand the role of the agro-ecological environment in the success of soil and water conservation measures to control runoff and hydrological dynamics. Runoff responses showed high spatial variation within and between land use types, causing high variation in soil and water conservation efficiency. Soil bunds combined with Vetiveriazizanioides grass in cultivated land and short trenches in grassland conserved the most runoff (51% and 55%, respectively). At the moist subtropical site in a highland region, soil and water conservation increased soil moisture enough to potentially cause waterlogging, which was absent at the low-rainfall sites. The three soil and water conservation techniques applied in cultivated land increased runoff conservation efficiency by 32% to 51%, depending on the site. Seasonal runoff from control plots in the highlands ranged 214-560 versus 253-475 mm at midlands and 119-200 mm at lowlands. non-agricultural land use types) and slopes (gentle and steep). The plots at each site represented common land use types (cultivated vs. Using a water-balance approach in this study, we used runoff plots from three sites, each representing a different agro-ecological environment, e.g.,high, mid and low in both elevation and rainfall, in the Upper Blue Nile Basin of Ethiopiato examine the runoff response and runoff conservation efficiency of a range of different soil and water conservation measures and their impacts on soil moisture. In developing countries such as Ethiopia, research to develop and promote soil and water conservation practices rarely addressed regional diversity. 10 Issue (2): 249-263 DOI: 10.1007/s4033-8Įfficiency of soil and water conservation practices in different agro-ecological environments in the Upper Blue Nile Basin of EthiopiaĭagnenetSULTAN 1, 2, *( ), TSUNEKAWA Atsushi 3, HAREGEWEYN Nigussie 4, ADGO Enyew 5, TSUBO Mitsuru 6, T MESHESHA Derege 3, 5, MASUNAGA Tsugiyuki 7, AKLOG Dagnachew 8, A FENTA Ayele 1, EBABU Kindiye 1, 5ġ The United Graduate School of Agricultural Sciences, Tottori University, Tottori 680-8553, Japan 2 School of Civil and Water Resource Engineering, Institute of Technology, Bahir Dar University, Bahir Dar, Ethiopia 3 Arid Land Research Center, Tottori University, Tottori 680-0001, Japan 4 International Platform for Dryland Research and Education, Tottori University, Tottori 680-0001, Japan 5 Department of Natural Resources Management, Bahir Dar University, Bahir Dar, Ethiopia 6 Institute for Soil, Climate and Water, Agricultural Research Council, Pretoria 0083, South Africa 7 Faculty of Life and Environmental Science, Shimane University, Shimane Matsue 690-0823, Japan 8 Center for International Affairs, Tottori University, Tottori 680-8550, Japan The Takeuchi Industrial Park located within the Sakaiminato FAZ is adjacent to the international trading port of Sakaiminato and offers easy access to Yonago Airport, which operates scheduled international flights to and from Seoul, South Korea, and Hong Kong.Journal of Arid Land 2018, Vol. It is developing as a "western Japan base for promoting interactions among the Sea of Japan rim," linking locations such as China, the Korean peninsula, Russia, the Kansai Region, and around the Seto Inland Sea. The Sakaiminato Foreign Access Zone (FAZ), is a gateway for land (Yonago Expressway), sea (Sakai Port), and air (Yonago Airport) transport, and one of the largest port/harbor zones in the San-in District. Its location along the beautiful coastline of the Sea of Japan and the verdant mountainous area of Chugoku is blessed with striking natural surroundings.
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