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Asssesing the effectiveness and impact of agricultural water management interventions: the case of small reservoirs in northern Ghana

Author

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  • Acheampong, Daniel
  • Balana, Bedru B.
  • Nimoh, Fred
  • Abaidoo, Robert C.

Abstract

Agricultural water management, particularly management of multi-purpose small reservoirs (SRs) in drier savanna areas of the northern Ghana, is being promoted as a key solution to improve agricultural production, enhance food security and livelihoods of smallholder farm households. However, little empirical evidence exist on how effective these small water infrastructures are in terms of delivering multiple benefits and their impact on the livelihood of smallholder farmers. This study assessed the effectiveness and impact of the small reservoirs on smallholder vegetable farmers in northern Ghana. A participatory rating method using a 5-point Likert-scale was used to assess the effectiveness of SRs in delivering multiple livelihood benefits and an endogenous switching regression model was applied to assess the SRs’ impact using a primary data collected from 328 randomly sampled vegetable farmers. Results from the Likert scale analysis show that most of the SRs are either dysfunctional or underutilized and not effective in delivering multiple benefits. Results from the endogenous switching regression model show that there is only about 3% increase in the income of vegetable farmers participating in irrigated vegetable production using SRs against the counterfactual situation but this change is insignificant statistically. The current low level effectiveness and impact of SRs could be enhanced by improving their management, for example, through the provision of incentive mechanisms such as subsidies to the private sector involvement in rehabilitation, management and irrigation service provision and strengthening the capacity of existing water users associations. Furthermore, small reserviors should be recognized not only as water sources for small scale irrigation but also as providers of multiple livelihood benefits to local communities and consequently should attract due attention in public resource allocation in their rehabilitation and management/institutional capacity building.

Suggested Citation

  • Acheampong, Daniel & Balana, Bedru B. & Nimoh, Fred & Abaidoo, Robert C., 2018. "Asssesing the effectiveness and impact of agricultural water management interventions: the case of small reservoirs in northern Ghana," Agricultural Water Management, Elsevier, vol. 209(C), pages 163-170.
  • Handle: RePEc:eee:agiwat:v:209:y:2018:i:c:p:163-170
    DOI: 10.1016/j.agwat.2018.07.009
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    References listed on IDEAS

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    1. Molden, David, 2007. "Water for food, water for life: a comprehensive assessment of water management in agriculture: summary. In Russian," IWMI Books, Reports H041260, International Water Management Institute.
    2. McCartney, M. & Rebelo, L-M. & Xenarios, S. & Smakhtin, V., 2013. "Agricultural Water Storage in an Era of Climate Change: Assessing Need and Effectiveness in Africa," IWMI Research Reports H045948, International Water Management Institute.
    3. Johnston, Robyn M. & McCartney, Matthew, 2010. "Inventory of water storage types in the Blue Nile and Volta River Basins," IWMI Working Papers H043220, International Water Management Institute.
    4. Salvatore Di Falco & Marcella Veronesi, 2013. "How Can African Agriculture Adapt to Climate Change? A Counterfactual Analysis from Ethiopia," Land Economics, University of Wisconsin Press, vol. 89(4), pages 743-766.
    5. Namara, Regassa E., 2011. "Irrigation development in Ghana: past experiences, emerging opportunities, and future directions," IWMI Working Papers H043830, International Water Management Institute.
    6. Awudu Abdulai & Wallace Huffman, 2014. "The Adoption and Impact of Soil and Water Conservation Technology: An Endogenous Switching Regression Application," Land Economics, University of Wisconsin Press, vol. 90(1), pages 26-43.
    7. Michael Lokshin & Zurab Sajaia, 2004. "Maximum likelihood estimation of endogenous switching regression models," Stata Journal, StataCorp LP, vol. 4(3), pages 282-289, September.
    8. Molden, David, 2007. "Water for food, water for life: a comprehensive assessment of water management in agriculture," IWMI Books, Reports H040193, International Water Management Institute.
    9. Namara, Regassa E. & Hope, Lesley & Sarpong, Eric Owusu & De Fraiture, Charlotte & Owusu, Diana, 2014. "Adoption patterns and constraints pertaining to small-scale water lifting technologies in Ghana," Agricultural Water Management, Elsevier, vol. 131(C), pages 194-203.
    10. Namara, Regassa E. & Horowitz, Leah & Nyamadi, Ben & Barry, Boubacar, 2011. "Irrigation development in Ghana: Past experiences, emerging opportunities, and future directions," GSSP working papers 27, International Food Policy Research Institute (IFPRI).
    11. Molden, David, 2007. "Water for food, water for life: a comprehensive assessment of water management in agriculture: summary. In Arabic," IWMI Books, Reports H041261, International Water Management Institute.
    12. Molden, David, 2007. "Water for food, water for life: a comprehensive assessment of water management in agriculture: summary," IWMI Books, Reports H039769, International Water Management Institute.
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    1. Bekoe, Joseph & Balana, Bedru B. & Nimoh, Fred, 2021. "Social cost-benefit analysis of investment in rehabilitation of multipurpose small reservoirs in northern Ghana using an ecosystem services-based approach," Ecosystem Services, Elsevier, vol. 50(C).
    2. Tesfaye, Meneyahel Z. & Balana, Bedru B. & Bizimana, Jean-Claude, 2021. "Assessment of smallholder farmers’ demand for and adoption constraints to small-scale irrigation technologies: Evidence from Ethiopia," Agricultural Water Management, Elsevier, vol. 250(C).
    3. Fajriani Ananda & Nofrizal Nofrizal & Dessy Yoswaty & Lena Farida & Rasoel Hamidy, 2023. "Integrating Environmentally Friendly Management of Water Resources toward Ecological and Socio-Economic Sustainability," International Journal of Energy Economics and Policy, Econjournals, vol. 13(3), pages 73-79, May.
    4. Bedru B. Balana & Crystal N. Aghadi & Adebayo I. Ogunniyi, 2022. "Improving livelihoods through postharvest loss management: evidence from Nigeria," Food Security: The Science, Sociology and Economics of Food Production and Access to Food, Springer;The International Society for Plant Pathology, vol. 14(1), pages 249-265, February.

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