Increasing agricultural productivity in Africa will have important impacts not only on the agricultural sector but also can be a catalyst for industrialization through agro-processing. Irrigation, therefore, has a crucial role in enhancing food security and reducing hunger in the region. Numerous countries in Africa consider water and irrigation management as a key factor in improving their food security and ensuring access to drinking-water for their populations. Fortunately, there is evidence from a number of places on the continent where the adoption of efficient irrigation systems has led to higher productivity among smallholder farmers. While the appropriate interventions for the diverse agro-ecological zones of sub-Saharan Africa are known, adoption among smallholder farmers still remains a challenge. Digital technology opens the vast untapped potential for farmers, investors, and entrepreneurs to improve the efficiency of food production and consumption in Africa. From precision farming to an efficient food supply chain, technology could bring major economic, social, and environmental benefits. Increasing investment and involvement of the private sector is crucial for the up-scaling of irrigation technologies. Indeed, the sheer optimism across the startup ecosystem is that extreme hunger can be cured in Africa, in this generation, by significantly transforming the industry that employs most of its citizens. This paper draws on lessons from past trends in the irrigation industry and emphasizes on novel directions to ensure that farmers, as well as other stakeholders reap the benefits associated with improved technologies.
Keywords: food self-sufficiency, irrigation development, small-holder farms, sub-Sahara Africa, sustainability
DOI: 10.25165/j.ijabe.20201303.4397

Citation: Darko R O, Liu J P, Yuan S Q, Sam-Amoah L K, Yan H F. Irrigated agriculture for food self-sufficiency in the sub-Saharan African region. Int J Agric & Biol Eng, 2020; 13(3): 1–12.

food self-sufficiency, irrigation development, small-holder farms, sub-Sahara Africa, sustainability

Godfray H C J, Crute I R, Haddad L, Lawrence D, Muir J F, Nisbett N, et al. The future of the global food system. Philosophical Transactions of the Royal Society B-Biological Sciences, 2010; 365(1554): 2769–2777.

Spielman D J, Hartwich F, Grebmer K. Public–private partnerships and developing-country agriculture: evidence from the International Agricultural Research System. Public Administration and Development, 2010; 30(4): 261–276.

Food and Agriculture Organization of the United Nations. Global hunger declining, but still unacceptably high. 2011. Available online: http://www.fao.org/hunger/hunger-home/en/ Accessed on [2017-08-13]

Al-Gaadi K A, Hassaballa A A, Tola E, Kayad A G, Madugundu R, Assiri F, et al. Impacts of center pivot irrigation system uniformity on growth of potato crop and residual soil nitrogen. Int J Agric & Biol Eng, 2019; 12(1): 126–131.

Suporn P, Pimwadee C, and Navaporn S. Applications of Smartphone-Based Sensors in Agriculture: A Systematic Review of Research, Journal of Sensors, 2015. DOI: 10.1155/2015/195308

World Bank. Poverty in a rising Africa: overview. Washington, D.C.: World Bank Group, 2015. http://documents.worldbank.org/curated/en/ 2015/10/25158121/poverty-rising-africa-overview.

Svendsen M, Ewing M, Msangi S. Measuring irrigation performance in Africa. IFPRI Discussion Paper, International Food Policy Research Institute, 2009.

Tafesse M. Small-scale irrigation for food security in sub-Saharan Africa. Summary Report and Recommendations of a CTA Study Visit. Ethiopia, January 20-29, 2003. CTA Working Document No. 8031. Wageningen: Technical Centre for Agricultural and Rural Cooperation.

Amjath-Babu T, Timothy K, Sreejith A, Muhammad A, Harald K. Climate change and indicators of probable shifts in the consumption portfolios of dryland farmers in Sub-Saharan Africa: Implications for policy. Ecological Indicators, 2016; 67: 830–838.

IFPRI. Increasing Agricultural Productivity and Enhancing Food Security in Africa. International Food Policy Research Institute, Washington, D.C., 2012.

Morardet S, Merrey D J, Seshoka J, Sally H. Improving irrigation project planning and implementation processes in sub-Saharan Africa: diagnosis and recommendations. IWMI, Colombo, 2005; 87p. Available at http://www.iwmi.cgiar.org/africanwaterinvestment/ index.asp.

Vanlauwe B, Coyne D, Gockowski J, Hauser S, Huising J, Masso C, et al. Sustainable intensification and the African smallholder farmer. Curr. Opin. Environ. Sustainability, 2014; 8: 15–22.

Stirzaker R, Pittock J. The case for a new irrigation research agenda for sub-Saharan Africa. In J. Pittock, R. Q. Grafton, & C. White (Eds.), Water, food and agricultural sustainability in Southern Africa, Prahran: Tilde University Press, 2014; pp. 91–107.

You L, Ringler C, Wood-Sichra U, Robertson R, Wood S, Zhu T, et al. What is the irrigation potential for Africa? A combined biophysical and socioeconomic approach. Food Policy, 2011; 36: 770–782. doi: 10.1016/j.foodpol.2011.09.001

Clapp J. Food Self-Sufficiency and International Trade: A False Dichotomy? State of Agricultural Commodity Markets – In Depth FAO, Rome, 2015. Available online: http://www.fao.org/3/a-i5222e.pdf. Accessed on [2018-01-26]

Food and Agriculture Organization of the United Nations. Implications of Economic Policy for Food Security: A Training Manual, 1999. Available online: http://www.fao.org/docrep/004/x3936e/x3936e03.htm Accessed on [2017-11-26]

Luan Y, Cui X, Ferrat M. Historical trends of food self-sufficiency in Africa. Food Security, 2013; 5(3): 393–405

Kako T. Sharp decline in the food self-sufficiency ratio in Japan and its future prospects. Paper presented at the International Association of Agricultural Economists Conference. Beijing, China. August 2009. Available online: http://ageconsearch.umn.edu/bitstream/51570/2/kako% 20Sharp%20decline%20in%20food%20self-sufficiency1.pdf Accessed on [2017-07-15]

Porkka M, Kummu M, Siebert S, Varis O. From food insufficiency towards trade dependency: a historical analysis of global food availability. PLoS ONE.2013; 8(12): e82714.

Puma M J, Bose S, Chon S Y, Cook B I. Assessing the evolving fragility of the global food system. Environmental Research Letters, 2015; 10(2): 024007.

Fader M, Gerten D, Krause M, Lucht W, Cramer W. Spatial decoupling of agricultural production and consumption: quantifying dependences of countries on food imports due to domestic land and water constraints. Environmental Research Letters, 2013; 8(1): 014–046.

Rakotoarisoa M A, Iafrate M, Paschali M. Why has Africa become a net food importer? Explaining Africa agricultural and food trade deficits. Rome, FAO, 2011.

MacDonald G K, Brauman K A, Sun S, Kimberly C M, Cassidy E S, Gerber J S, et al. Rethinking agricultural trade relationships in an era of globalization. BioScience, 2015; 65(3): 275–289.

Boers T M, Ben-Asher J. A review of rainwater harvesting. Agric.Water Manage, 1982; 5: 145–158.

Critchley W, Siegert K, Chapman, C, Finkel M. Water Harvesting. A manual for the design and construction of water harvesting schemes for plant production. FAO, Rome, 1991.

Falkenmark M, Fox P, Persson G, Rockstrom J. Water harvesting for upgrading of rainfed agriculture. Problem analysis and research needs. Stockholm International Water Institute, Report 11, Sweden, 2001.

Humphreys E, Bayot R S. Increasing the productivity and sustainability of rainfed cropping systems of poor smallholder farmers. In book: Increasing the Productivity & Sustainability of Rainfed Cropping Systems of Poor Smallholder Farmers, Chapter: Agricultural technology adoption successes and failures in Ghana and Kenya, Publisher: CGIAR Challenge program on water & food, Editors: E. Humphreys & R. S. Bayot, 2009; pp. 293–306.

Rockstrom J, Barron J, Fox P. Rainwater management for increased productivity among smallholder farmers in drought prone environments. Phys. Chem. Earth, 2002; 27: 949–959.

Temesgen M. Conservation tillage systems and water productivity. Implications for smallholder farmers in semi-arid Ethiopia. PhD thesis. Taylor & Francis/Balkema, Leiden, Netherlands, 2007.

Wani S P, Rockström J, Oweis T, editors. Rainfed Agriculture: Unlocking the Potential, CABI, 2009.

Rockström J, Falkenmark M. Agriculture: Increase water harvesting in Africa. Nature News. Crit. Rev. Plant Sci., 2000; 19: 319–346.

Food and Agriculture Organization of the United Nations. Irrigation in Africa in Figures AQUASTAT Survey. Edited by Karen Frenken FAO Land and Water Development Division. Food and Agriculture Organization of the United Nations Rome, FAO Water Reports 29, 2005.

Future Agricultures; WP119, June 2015. Irrigation for Agriculture Transformation. Available online: https://www.jica.go.jp/jicari/ publication/booksandreports/l75nbg0000004aet-tt/l75nbg0000004ai9.pdf. Accessed on [2018-01-13]

FAO Aquastat 2010. Irrigation in Central Asia in Figures. Available online: http://www.fao.org/3/a-i3289e.pdf. Accessed on [2017-12-07]

FAO Aquastat 2005. Irrigation in Africa in Figures. Available online: https://www.amazon.com/29-Irrigation-Figures-Aquastat-Reports/dp/9251054142. Accessed on [2017-12-03]

Food and Agriculture Organization of the United Nations. The state of the world’s land and water resources for food and Agriculture (SOLAW) - Managing systems at risk. Food and Agriculture Organization of the United Nations, Rome and Earthscan, London, 2011.

World Bank. 2013. Transforming Agriculture in the Sahel: What Would It Take? Available online: http://preventionweb.net/go/35360. Accessed on [2017-12-07]

International Water Management Institute 2007. A Comprehensive Assessment of water management in Agriculture. Available online: http://www.iwmi.cgiar.org/assessment/files_new/synthesis/Summary_SynthesisBook.pdf. Accessed on [2017-11-20]

Namara R E, Horowitz L, Kolavalli S, Kranjac-Berisavljevic G, Dawuni B N, Barry B, et al. Typology of irrigation systems in Ghana. Colombo, Sri Lanka: International Water Management Institute, 2010; 35p. IWMI Working Paper 142. doi: 10.5337/2011.200

Namara RE, Horowitz L, Nyamadi B, Barry B. Irrigation Development in Ghana: Past Experiences, Emerging Opportunities, and Future Directions. GSSP Working Paper No. 0026. International Food Policy Research Institute, 2011.

Lakhiar I A, Gao J M, Syed T N, Chandio F A, Tunio M H, Ahmad F, et al. Overview of the aeroponic agriculture – An emerging technology for global food security. Int J Agric & Biol Eng, 2020; 13(1): 1–10.

McBratney A, Whelan B, Ancev T. Future directions of precision agriculture. Precision Agriculture, 2005; 6: 7–23.

Whelan B M, McBratney A B. Definition and interpretation of potential management zones in Australia, In Proceedings of the 11th Australian Agronomy Conference, Geelong, Victoria, Feb. 2-6, 2003.

Reina G. A multi sensor robotic platform for ground mapping and estimation beyond the visible spectrum. Precision Agriculture, 2018; 20(2): 423–444.

Evenson R E, Pray C E, Rosegrant M W. Agricultural research and productivity growth in India. Research Report 109. Washington, DC: IFPRI, 1999.

Morris M, Cervigni R, Guo Z, Koo J. The Central Role of Drylands in Africa’s Development Challenge. In Cervigni R and Morris M, eds. Confronting Drought in Africa’s Drylands: Opportunities for Enhancing Resilience. Washington, DC: World Bank, 2015.

Riddell P J, Westlake M. Demand for products of irrigated agriculture in subSaharan Africa. Rome, Italy: FAO, 2006.

Fuglie K O. Total factor productivity in the global agricultural economy: Evidence from FAO data. In J. Alston, B. Babcock, and P. Pardey, editors. The Shifting Patterns of Agricultural Production and Productivity Worldwide. Ames, IA: Midwest Agribusiness Trade and Research Information Center, 2015.

You L, Ringler C, Nelson G, Wood-Sichra U, Robertson R, Wood S, et al. What is the irrigation potential for Africa? A combined biophysical and socioeconomic approach. IFPRI Discussion Paper, 00993. Washington, DC: IFPRI, 2010.

Li H F, Qi Z M, Gui D W, Zeng F J. Water use efficiency and yield responses of cotton to field capacity-based deficit irrigation in an extremely arid area of China. Int J Agric & Biol Eng, 2019; 12(6): 91–101.

Food and Agriculture Organization of the United Nations. 2014. Success stories on climate smart agriculture. Rome, Italy: FAO. http://www.fao.org/3/a-i3817e.pdf. Accessed on [2017-11-26]

Shideed K, Alary V, Laamari A, Nefzaoui A, El-Mourid M. Ex-post impact assessment of natural resource management technologies in crop-livestock systems in dry areas of Morocco and Tunisia. In Waibel H, Zilberman D (Ed.), International research on natural resource management: Advances in impact assessmen.t. Wallingford: FAO and CABI International, 2007; pp. 169–195.

Keating B A, Carberry P, Bindraban P S, Senthold A, Meinke H, Dixon J. Eco-efficient agriculture: Concepts, challenges, and opportunities. Crop Science, 2010; 50: s1–s11.

IFAD. Climate change and food security: Innovations for smallholder agriculture. EC, IFAD, CGIAR, November 2015.

Zhu M, Zhou X Q, Zhai Z F. Research progresses in technological innovation and integration of agricultural engineering. Int J Agric & Biol Eng, 2016; 9(6): 1–9.

Yang G, He X L, Li X L, Long A H, Xue L Q. Transformation of surface water and groundwater and water balance in the agricultural irrigation area of the Manas River Basin, China. Int J Agric & Biol Eng, 2017; 10(4): 107–118.