Your search found 3 records
1 Kloos, H.; Legesse, W. (Eds.) 2010. Water resources management in Ethiopia: implications for the Nile Basin. Amherst, NY, USA: Cambria Press. 415p.
Water resources development ; Water resource management ; Irrigation systems ; Dams ; Water harvesting ; Water supply ; Sanitation ; Deforestation ; Land degradation ; Highlands ; River basin development ; Pastoral society ; Flooding ; Water pollution ; Waterborne diseases / Africa / Ethiopia / Africa South of Sahara / Nile Basin / Awash Valley / Omo Valley / Dire Dawa Town
(Location: IWMI HQ Call no: 333.91 G136 KLO Record No: H043016)
2 Kelemework, D. 2008. A comparative analysis of the technical efficiency of irrigated and rainfed agriculture: a case of Awash and Rift valleys of Ethiopia. In Awulachew, Seleshi Bekele; Loulseged, Makonnen; Yilma, Aster Denekew (Comps.). Impact of irrigation on poverty and environment in Ethiopia: draft proceedings of the symposium and exhibition, Addis Ababa, Ethiopia, 27-29 November 2007. Colombo, Sri Lanka: International Water Management Institute (IWMI). pp.193-209.
Irrigated farming ; Rainfed farming ; River basins ; Irrigation programs ; Small scale systems / Ethiopia / Awash Valley / Rift Valley / Batu Degaga Irrigation Project / Godino Irrigation Project
(Location: IWMI HQ Call no: e-copy only Record No: H044137)
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Ethiopia’s economy is heavily dependent on the agricultural sector, which contributes 45% of the GDP, providing livelihood for 85% of the population and accounting for 60% of the foreign exchange earning. Ethiopia, one of the poorest countries in Sub-Saharan Africa, has been repeatedly hit by drought resulting in famine and the loss of life of thousands of its rural citizens. The country’s agriculture mainly depends on rain fed peasant farming which accounts for 96% of the food produced in the country. On the other hand, it is estimated that the major river basins of the country can irrigate about 3.5 million-hectare of land and at present only about 161,010 ha or 4.6% is irrigated around the major river basins. Though the expansion and better utilization of this irrigation potential is unattested, the production efficiency of the existing irrigation systems also needs attention. This paper compares the technical efficiency of rainfed and irrigated agricultural production in Ethiopia. Using the stochastic production frontier approach, the study concludes that the existing irrigation systems are not that efficient and there is a need to make them operate near their production frontier. The production frontiers of both irrigated and rainfed agriculture is estimated along with the technical efficiency of each farmer in both groups and the two groups are compared in relation to their respective frontiers. The marginal and average productivities of the important factors of production is also calculated and compared.
3 Kloos, H.; Legesse, W. (Eds.) 2010. Water resources management in Ethiopia: implications for the Nile Basin. Amherst, NY, USA: Cambria Press. 415p.
Water resources development ; Water resource management ; Irrigation systems ; Dams ; Water harvesting ; Water supply ; Sanitation ; Deforestation ; Land degradation ; Highlands ; River basin development ; Pastoral society ; Flooding ; Water pollution ; Waterborne diseases / Africa / Ethiopia / Africa South of Sahara / Nile Basin / Awash Valley / Omo Valley / Dire Dawa Town
(Location: IWMI HQ Call no: 333.91 G136 KLO c2 Record No: H044997)
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