Agriculture is the backbone of the Sub-Saharan African economy. Ethiopia's GDP is also shared by 45 from the agriculture sectors. However, it is confronted and challenged by variable rainfall and climate changes. Particularly, in South Wollo zone, agriculture is not exceptional in facing such daunting challenges and effects of variable rainfall and climate change despite there are abundant alternative irrigated water resources. River and groundwater sources have not yet been used as alternative uses for agricultural production. As a result, rural households' income couldn’t meet their minimum food and nonfood requirements. This study, thus, attempted to evaluate the impact of irrigated water use on rural household's income in South Wollo Zone, Amhara regional state, Ethiopia. In pursuit of this, it employed a descriptive type of research design and triangulated research approach that consists of both quantitative and qualitative techniques. Primary and secondary data were collected from small scale irrigated households and secondary sources. Binary logistic regression was used to determine major significant factors that affect households' irrigated water use for agricultural production. A propensity core matching model was employed to evaluate irrigated water use and agriculture on household’s income. This study result (binary logistic regression result) showed that the household’s family size, land size and willingness were significant factors that determined irrigated water use for agricultural production at 95 percent level of significance. The propensity score matching model result also shows that irrigated water use significantly created significant impact on household’s income. It is, thus, keenly important to change and improve the smallholder farmer’s land size, extension services, rural credit, technology, education level, awareness about family size, and willingness to use irrigated water sources, such as, ground and river water for agriculture agricultural production that increase their level of income.
Published in | Journal of World Economic Research (Volume 13, Issue 2) |
DOI | 10.11648/j.jwer.20241302.11 |
Page(s) | 33-43 |
Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
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Copyright © The Author(s), 2024. Published by Science Publishing Group |
Households, Smallholder Farmers, Income, Irrigated Water Use, Agriculture
[1] | Shiferaw, B., Tesfaye, K., Kassie, M., Abate, T., Prasanna, B. M., & Menkir, A. (2014). Managing vulnerability to drought and enhancing livelihood resilience in sub-Saharan Africa: Technological, institutional and policy options. Weather and Climate Extremes, 3, 67-79. |
[2] | You, L., (2008). Irrigation investment needs in sub-Saharan Africa. Washington, DC: World Bank. |
[3] | Nata T., Asmelash B., (2007): Recharging Practices for the enhancement of hand dug wells discharge in Debre Kidane watershed, North Ethiopia. 4th International Work Shop on Water Management and Irrigation: Focus on ground water. Mekelle University, Mekelle, Ethiopia. |
[4] |
(MoWR, 2001 & 2006): Ethiopian water sector strategy. Addis Ababa, Ethiopia.
https://chilot.me/wp-content/uploads/2011/08/water-strategy.pdf |
[5] | Reddy R., (2010). Irrigation Engineering, Gene-Tech Books, New Delhi - 110 002. |
[6] | FAO (2002): The State of Food Insecurity in the World 2001. Rome. |
[7] | FAO (2001): Small holder Irrigation Technology: Prospects for Sub-Saharan Africa; IPTRID Secretariat, Food and Agriculture Organization of the United Nations: Rome, Italy. |
[8] | Ministry of Agriculture (MoA): (2011a): Natural Resources Management Directorates. Small-Scale Irrigation Situation Analysis and Capacity Needs Assessment, Addis Ababa, Ethiopia. |
[9] | World Bank (2006). Ethiopia: Managing water resources to maximize sustainable growth. A World Bank water resources assistance strategy for Ethiopia. The World Bank Agriculture and Rural Development Department. Report No. 36000-ET. Washington, DC, USA. |
[10] | Makombe G, Namara R, Hagos F, Awulachew SB, Ayana M, Bossio D (2011). A comparative analysis of the technical efficiency of rain-fed and smallholder irrigation in Ethiopia. Colombo, Sri Lanka: International Water Management Institute. pp. 37. |
[11] | Awulachew SB, Merry J, Kamara AB, van Koppen B, Penning de Vries F, Boelee E, Makombe G (2005). Experiences and opportunities for promoting small-scale/micro irrigation and rainwater harvesting for food security in Ethiopia. Colombo, Sri Lanka: International Water Management Institute (IWMI). pp. 91. |
[12] | Makombe G, Kelemework D, Ared, D (2007). A comparative analysis of rainfed and irrigated agricultural production in Ethiopia. Irrigation and Drainage Syst. 21: 35-44. |
[13] | FAO (2002). Irrigation Manual: Planning, Development Monitoring and Evaluation of Irrigated Agriculture with Farmer Participation. 2: 7. |
[14] | Kidane, D., Mekonnen, A.; Teketay, D, (2015): An assessment of land tenure system and conflict resolution. Tendaho irrigation project case study lower Awash basin, Ethiopia. In Proceedings of the High Level Policy Forum, Semera, Ethiopia, 6–7 March 2014; Afar National Regional State, United Nations Development Programme Ethiopia Country Office: Addis Ababa, Ethiopia, 2015. |
[15] | Kidane, D., Mekonnen, A.; Teketay, D., (2014): Contributions of Tendaho Irrigation Project to the improvement of livelihood of Agro pastoralists in the Lower Awash Basin, Northeastern Ethiopia. Ethiopia. J. Res. Innov. Foresight, 6, 1–19. |
[16] | Dananto, M.U and Alemu, E (2014). Irrigation water management in small scale irrigation schemes: The case of the Ethiopian rift valley lake basin. Environ. Res. Eng. Manag, 1, 5–15. |
[17] | Boelee E., Makombe G., (2005): Experiences and opportunities for promoting small-scale/micro irrigation and rainwater harvesting for food security in Ethiopia. International Water Management Institute, Addis Ababa. |
[18] | UNDP (2003): Poverty and Climate Change: Reducing the Vulnerability of the Poor through Adaptation. African Development Bank, Asian Development Bank, Department for International Development - UK, Directorate- General for Development - European Commission, Federal Ministry for Economic Cooperation and Development -Germany, Ministry of Foreign Affairs - the Netherlands, Organisation for Economic Cooperation and Development, United Nations Development Programme, United Nations Environmental Programme and the World Bank, 43 pp. |
[19] | FAO, (2001): Small holder Irrigation Technology: Prospects for Sub-Saharan Africa; IPTRID Secretariat, Food and Agriculture Organization of the United Nations: Rome, Italy. |
[20] | MoFED, (2010): The millennium development goals report. Trends and prospects for meeting MDGs. |
[21] | Tafesse, M., (2003: Small-Scale Irrigation for Food Security in Sub-Saharan Africa; The ACP-EU Technical Centre for Agricultural and Rural Cooperation (CTA): Addis Ababa, Ethiopia. |
[22] | Kendie (2002), D. Egypt and the Hydro-Politics of the Blue Nile River.Northeast African Studies, Volume 6, Number 1-2, 1999 (New Series), pp. 141-169 (Article).Published by Michigan State University Press. USA. |
[23] | Kidane, D.; Mekonnen, A.; Teketay, D. Contributions of Tendaho Irrigation Project to the improvement of livelihood of Agro pastoralists in the Lower Awash Basin, Northeastern Ethiopia. Ethiopia. J. Res. Innov. Foresight 2014, 6, 1–19. |
[24] | Belay M, Woldeamlak B (2013). Traditional Irrigation and Water Management Practices in Highland, Ethiopia: Case Study in Dangila Woreda. Irrigation and Drainage. 62: 435– 448. |
[25] | Awulachew, S., et al., (2010). Irrigation potential in Ethiopia. Constraints and opportunities for enhancing the system. Addis Ababa, Ethiopia: International Water Management Institute. |
[26] | Astatike, A. A. (2016). Assessing the impact of small-scale irrigation schemes on household income in Bahir Dar Zuria Woreda (Master’s thesis), Haramaya University, Harer, Ethiopia. |
[27] | Haile, G. G., & Kasa, A. K. (2015): Irrigation in Ethiopia: A review. Academia Journal of Agricultural Research, 3(10), 264–269. MOA, (2010a): The Federal Democratic Republic of Ethiopia, growth and transformation plan (GTP) 2010/11–2014/15, Draft. 2010. |
[28] | Bacha D, Regasa N, Ayalneh B, Abonesh T (2011). Impact of Small-Scale Irrigation on Household Poverty: Empirical Evidence from the Ambo District In Ethiopia. Irrigation and Drainage. 60: 1–10. |
[29] | Peden, D., Astatke, A., Baltenweck, I., Sonder, K., and Tadesse, G., 2006. Agricultural water and livestock production case study in Sub-Sahara Africa. Chapter 4 in Investment in agricultural water management in sub-Sahara Africa: diagnosis of trends and opportunities, Case studies report (Vol. 2): Highlights of findings of various components. African DevelopmentBank. |
[30] | Kidane, D., Mekonnen, A.; Teketay, D. (2014): Anassessmentoflandtenuresystemandconflictresolution. Tendaho irrigation project case study lower Awash basin, Ethiopia. In Proceedings of the High Level Policy Forum, Semera, Ethiopia; Afar National Regional State, United Nations Development Programme Ethiopia Country Office: Addis Ababa, Ethiopia. |
[31] | Kidane, D.; Mekonnen, A.; Teketay, D. Contributions of Tendaho Irrigation Project to the improvement of livelihood of Agro pastoralists in the Lower Awash Basin, North eastern Ethiopia. Ethiopia. J. Res. Innov. Foresight 2014, 6, 1–19. |
[32] | Awulachew et al., 2005 & 2010 & Kebede, et al., 2011: Experiences and Opportunities for Promoting Small-Scale/Micro Irrigation and Rainwater Harvesting for Food Security in Ethiopia; International Water Management Institute: Addis Ababa, Ethiopia, 2005. |
[33] | Gujarati (1988 & 2004): Gujarati D 1995: Basic Econometrics, Third Edition. New York: Mcgraw-Hill. |
[34] | IPCC (2007): Climate Change 2007: Synthesis Report. Contribution of Working Groups I, II and III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. |
[35] | Ministry of Water Resources. Climate Change National Adaptation Programme of Action (NAPA) of Ethiopia; Ministry of Water Resources and National Meteorological Agency: Addis Ababa, Ethiopia, 2007. |
APA Style
Kebede, T. E. (2024). Impacts of Irrigated Water Use on Household’s Income in South Wollo Zone, Amhara Regional State, Ethiopia. Journal of World Economic Research, 13(2), 33-43. https://doi.org/10.11648/j.jwer.20241302.11
ACS Style
Kebede, T. E. Impacts of Irrigated Water Use on Household’s Income in South Wollo Zone, Amhara Regional State, Ethiopia. J. World Econ. Res. 2024, 13(2), 33-43. doi: 10.11648/j.jwer.20241302.11
AMA Style
Kebede TE. Impacts of Irrigated Water Use on Household’s Income in South Wollo Zone, Amhara Regional State, Ethiopia. J World Econ Res. 2024;13(2):33-43. doi: 10.11648/j.jwer.20241302.11
@article{10.11648/j.jwer.20241302.11, author = {Tefera Eshete Kebede}, title = {Impacts of Irrigated Water Use on Household’s Income in South Wollo Zone, Amhara Regional State, Ethiopia }, journal = {Journal of World Economic Research}, volume = {13}, number = {2}, pages = {33-43}, doi = {10.11648/j.jwer.20241302.11}, url = {https://doi.org/10.11648/j.jwer.20241302.11}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.jwer.20241302.11}, abstract = {Agriculture is the backbone of the Sub-Saharan African economy. Ethiopia's GDP is also shared by 45 from the agriculture sectors. However, it is confronted and challenged by variable rainfall and climate changes. Particularly, in South Wollo zone, agriculture is not exceptional in facing such daunting challenges and effects of variable rainfall and climate change despite there are abundant alternative irrigated water resources. River and groundwater sources have not yet been used as alternative uses for agricultural production. As a result, rural households' income couldn’t meet their minimum food and nonfood requirements. This study, thus, attempted to evaluate the impact of irrigated water use on rural household's income in South Wollo Zone, Amhara regional state, Ethiopia. In pursuit of this, it employed a descriptive type of research design and triangulated research approach that consists of both quantitative and qualitative techniques. Primary and secondary data were collected from small scale irrigated households and secondary sources. Binary logistic regression was used to determine major significant factors that affect households' irrigated water use for agricultural production. A propensity core matching model was employed to evaluate irrigated water use and agriculture on household’s income. This study result (binary logistic regression result) showed that the household’s family size, land size and willingness were significant factors that determined irrigated water use for agricultural production at 95 percent level of significance. The propensity score matching model result also shows that irrigated water use significantly created significant impact on household’s income. It is, thus, keenly important to change and improve the smallholder farmer’s land size, extension services, rural credit, technology, education level, awareness about family size, and willingness to use irrigated water sources, such as, ground and river water for agriculture agricultural production that increase their level of income. }, year = {2024} }
TY - JOUR T1 - Impacts of Irrigated Water Use on Household’s Income in South Wollo Zone, Amhara Regional State, Ethiopia AU - Tefera Eshete Kebede Y1 - 2024/09/29 PY - 2024 N1 - https://doi.org/10.11648/j.jwer.20241302.11 DO - 10.11648/j.jwer.20241302.11 T2 - Journal of World Economic Research JF - Journal of World Economic Research JO - Journal of World Economic Research SP - 33 EP - 43 PB - Science Publishing Group SN - 2328-7748 UR - https://doi.org/10.11648/j.jwer.20241302.11 AB - Agriculture is the backbone of the Sub-Saharan African economy. Ethiopia's GDP is also shared by 45 from the agriculture sectors. However, it is confronted and challenged by variable rainfall and climate changes. Particularly, in South Wollo zone, agriculture is not exceptional in facing such daunting challenges and effects of variable rainfall and climate change despite there are abundant alternative irrigated water resources. River and groundwater sources have not yet been used as alternative uses for agricultural production. As a result, rural households' income couldn’t meet their minimum food and nonfood requirements. This study, thus, attempted to evaluate the impact of irrigated water use on rural household's income in South Wollo Zone, Amhara regional state, Ethiopia. In pursuit of this, it employed a descriptive type of research design and triangulated research approach that consists of both quantitative and qualitative techniques. Primary and secondary data were collected from small scale irrigated households and secondary sources. Binary logistic regression was used to determine major significant factors that affect households' irrigated water use for agricultural production. A propensity core matching model was employed to evaluate irrigated water use and agriculture on household’s income. This study result (binary logistic regression result) showed that the household’s family size, land size and willingness were significant factors that determined irrigated water use for agricultural production at 95 percent level of significance. The propensity score matching model result also shows that irrigated water use significantly created significant impact on household’s income. It is, thus, keenly important to change and improve the smallholder farmer’s land size, extension services, rural credit, technology, education level, awareness about family size, and willingness to use irrigated water sources, such as, ground and river water for agriculture agricultural production that increase their level of income. VL - 13 IS - 2 ER -