Abstract
Relationships involving maize (Zea mays) production, maize retained for household consumption, household maize requirement, household size, rainfall and temperatures were assessed in order to explain food insufficiency among smallholder farmers in Choma, Zambia. Post-harvest agricultural data for 1976 to 2014 were collected from the Central Statistics Office while a survey of 319 smallholder farmers and eight key informants provided data on mean annual household maize requirements and crop preference. Despite maize production in Choma increasing at an annual rate of 230.8 t/year, maize insufficiency persisted as maize retained for household consumption could not sustain the 185.2 kg per capita maize requirement by farmers in the area. While extending the maize area planted was responsible for increasing annual maize production by 1.8 t for each additional ha planted, Choma’s annual percentage population increase was larger at 2.6%, requiring an increase of 821 t/year for maize sufficiency. Maize produced was usually enough for annual consumption before sales. However, farmers sold about 50% of what they produced making the amount of maize retained for household consumption insufficient. Government incentives attached to maize production and marketing encouraged a maize-centric farming culture among farmers. Maize which had a guaranteed market from the Zambia Food Reserve Agency was allocated 73.4% of the available land over the study period. The maize centric system has encouraged mono-cropping of maize. Farmer preference for maize, rooted in cultural norms, further encouraged maize mono-cropping at the expense of food sufficiency. In conclusion, government incentivising production and marketing of other agronomically suitable crops for the region could reduce food insufficiency.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Berdegué, J., Reardon, T., & Escobar, G. (2001). Rural non-farm employment and incomes in Chile. World Development, 29(3), 411–425.
Bertmann, F. M. W. (2014) Food Sufficiency: A framework to understand food access and associated coping behavior. Gretchen Swanson Center for Nutrition. Omaha, Nebraska: US.
Brown, R. P., Hochman, Z., Bridle, K. L., & Huth, N. I. (2015). Participatory approaches to address climate change: Perceived issues affecting the ability of South East Queensland graziers to adapt to future climates. Agriculture and Human Values, 32(4), 689–703.
Challinor, A. J., Wheeler, R. T., Osborne, M. T., & Slingo, M. J. (2006). Assessing the vulnerability of crop productivity to climate change thresholds using an integrated crop-climate model. In J. Schellnhuber, W. Cramer, N. Nakicenovic, G. Yohe, & T. Wigley (Eds.), Avoiding Dangerous Climate Change (pp. 187–194). UK: Cambridge University Press.
Collier, R., Fellows, J., Adams, S., Semenov, M., & Thomas, B. (2008a). Vulnerability of horticultural crop production to extreme weather events. Aspects of Applied Biology, 88, 2–14.
Collier, P., Conway, G., & Venables, T. (2008b). Climate change and Africa. Oxford Review of Economic Policy, 24(2), 337–353.
Dessai, S., Adger, W. N., Hulme, M., Köhler, M., Turnpenny, J., & Warren, R. (2003). Defining and experiencing dangerous climate change. Tyndall Center for Climate Change Research. Norwich: University of East Anglia.
Droppelmann, K. J., Snapp, S. S., & Waddington, S. R. (2017). Sustainable intensification options for smallholder maize-based farming systems in sub-Saharan Africa. Food Security, 9(1), 133–150.
Eakin, H., Webhe, M., Ávila, C., Torres, S.G., & Bojórquez-Tapia, A.L. (2006). A comparison of the social vulnerability of grain farmers in Mexico and Argentina. Working Paper No. 29. Washington DC, USA: Assessments of impacts and adaptations to climate change (AIACC).
Ellis, F. (2000). Rural livelihoods and diversity in developing countries. New York, USA: Oxford University Press.
Godfray, H., Charles, J., Beddington, R. J., Crute, R. I., Haddad, L., Lawrence, D., Muir, J. F., Pretty, J., Robinson, S., Thomas, S. M., & Toulmin, C. (2010). Food security: The challenge of feeding 9 billion people. Science, 327(5967), 812–818.
Govereh, J., Jayne, T.S., & Chapoto, A. (2008). Assessment of alternative maize trade and market policy interventions in Zambia. Working Paper No. 33. Lusaka, Zambia: Food security research Project (FSRP).
Gregory, P. J., Ingram, J. S. I., Andersson, R., Betts, R. A., Brovkin, V., Chase, T. N., Grace, P. R., Gray, A. J., Hamilton, N., Hardy, T. B., Howden, S. M., Jenkins, A., Meybeck, M., Olsson, M., Ortiz-Monasterio, I., Palm, C. A., Payn, T. W., Rummukainen, M., Schulze, R. E., Thiem, M., Valentin, C., & Wilkinson, M. J. (2002). Environmental consequences of alternative practices for intensifying crop production. Agriculture, Ecosystems & Environment, 88(3), 279–290.
Gregory, P. J., Johnson, S. N., Newton, A. C., & Ingram, J. S. I. (2009). Integrating pests and pathogens into the climate change/food security debate. Journal of Experimental Botany, 60(10), 2827–2838.
GRZ (2004). National agricultural policy (2004–2015). Ministry of Agriculture and Co-operatives. Lusaka, Zambia: Ministry of Agriculture and Co-operatives (MACO).
GRZ. (2013a). Farmer input support programme (FISP): Implementation manual 2013/2014 agricultural season. Lusaka, Zambia: Ministry of Agriculture and Livestock.
GRZ. (2013b). Ministry of Agriculture and livestock: End of year report 2013. Choma, Zambia: Department of Agriculture.
Hichaambwa, M., & Jayne, T.S. (2014). Poverty reduction potential of increasing smallholder access to land. Working Paper No. 83. Lusaka, Zambia: Indaba agricultural policy research Institute (IAPRI).
Howard, J. A., & Mungoma C. (1996). Zambia’s stop-and-go revolution: The impact of policies and organizations on the development and spread of maize technology. MSU international development Working Paper No. 61. East Lansing, MI, USA: Michigan State University.
Jukanti, A. K., Laxmipathi Gowda, C. L., Rai, K. N., Manga, V. K., & Bhatt, R. K. (2016). Crops that feed the world 11. Pearl millet (Pennisetum glaucum L.): An important source of food security, nutrition and health in the arid and semi-arid tropics. Food Security, 8(2), 307–329.
Lipton, M. (2006). Can small farmers survive, prosper, or be the key channel to cut mass poverty? Journal of Agriculture and Development Economics, 3(1), 58–85.
Mason, M. N., & Myers, J.R. (2011). The effects of the food reserve agency on maize market prices in Zambia: Are there threshold nonlinearities. Working Paper No. 60. Lusaka, Zambia: Food security research Project (FSRP).
Mason, M. N., Jayne, T.S., & Mofya-Mukuka, R. (2013). A review of Zambia's agricultural input subsidy programs-targeting impacts and the way forward. Working Paper 77. Lusaka, Zambia: Indaba agricultural policy research Institute (IAPRI).
McDowell, J. Z., & Hess, J. J. (2012). Accessing adaptation: Multiple stressors on livelihoods in the Bolivian highlands under a changing climate. Global Environmental Change, 22(2), 342–352.
Milimo, J. T., Shilito, T., & Brock, T. (2002). The poor of Zambia speak. Who would ever listen to the poor? Lusaka, Zambia: Zambia Social Investment Fund.
Morton, J. F. (2007). The impact of climate change on smallholder and subsistence agriculture. Proceedings of the National Academy of Sciences, 104(50), 19680–19685.
Pretty, J., Toulmin, C., & Williams, S. (2011). Sustainable intensification in African agriculture. International Journal of Agricultural Sustainability, 9(1), 5–24.
Reilly, J. M., & Schimmelpfennig, D. (1999). Agricultural impact assessment, vulnerability, and the scope for adaptation. Climatic Change, 43(4), 745–788.
Reynolds, T., Waddington, S. R., Anderson, C. L., Chew, A., True, Z., & Cullen, A. (2015). Environmental impacts and constraints associated with the production of major food crops in sub-Saharan Africa and South Asia. Food Security, 7(4), 795–822.
Ricker-Gilbert, J., Jumbe, C., & Chamberlin, J. (2014). How does population density influence agricultural intensification and productivity? Evidence from Malawi. Food Policy, 48, 114–128.
Simatele, M. C. H. (2006). The impacts of structural adjustment on food production in Zambia. African Economic Research Consortium, paper no. RP_159.
Sitko, N. J., Chapoto, A., Kabwe, S., Tembo, S., Hichaambwa, M., Lubinda, R., Chiwawa, H., Mataa, M., Heck, S., & Nthani, D. (2011). Technical compendium descriptive agricultural statistics and analysis for Zambia. Working Paper No. 52. Lusaka, Zambia: Food security research Project.
Smithers, J., & Smit, B. (1997). Agricultural system response to environmental stress. In B. Ilbery, Q. Chiotti, & T. Richard (Eds.), Agricultural restructuring and sustainability: A geographical perspective. New York, USA: CAB International.
Suhardiman, D., Giordano, M., Leebouapao, L., & Keovilignavong, O. (2015). Farmers' strategies as building block for rethinking sustainable intensification. Agriculture and Human Values, 33(3), 1–12.
Swift, J., & Hamilton, K. (2001). Household food and livelihood security. In S. Devereux & S. Maxwell (Eds.), Food security in sub-Saharan Africa. ITDG: London, UK.
Tadross, M., Suarez, P., Lotsch, A., Hachigonta, S., Mdoka, M., Unganai, L., Lucio, F., Kamdonyo, D., & Muchinda, M. (2009). Growing-season rainfall and scenarios of future change in southeast Africa: Implications for cultivating maize. Climate Research, 40(2–3), 147–161.
The World Bank. (2008). World development report 2008. Agriculture for development. Washington DC: World Bank.
Thurlow, J., & Wobst, P. (2004). The road to pro-poor growth in Zambia: Past lessons and future challenges. Discussion Paper 16. Washington, D.C, USA: International food policy research Institute.
WFP (2014). Improving links between smallholder farmers and school feeding programmes. World Food Programme. https://www.wfp.org/purchase-progress/news/blog/p4p-improves-links-between-small-scale-farmers-and-school-feeding-progra.
World Bank. 2012. The World Bank Annual Report 2012 Volume 1. Main Report. Washington DC: World Bank.
Zingore, S., Tittonell, P., Corbeels, M., Van Wijk, M. T., & Giller, K. E. (2011). Managing soil fertility diversity to enhance resource use efficiencies in smallholder farming systems: A case from Murewa District, Zimbabwe. Nutrient Cycling in Agroecosystems, 90, 87–103.
ZNFU (2015). Zambia national farmers union commodity prices. Farm prices. http://www.Farmprices.Co.Zm/. Accessed 13th august, 2015.
Zulu, B., Jayne, T. S., & Beaver, M. (2006). Smallholder household maize production and marketing behaviours in Zambia. In Working paper 17. Lusaka, Zambia: Food Security Research Project.
Acknowledgments
The authors thank the STRECC programme of Maastricht University, The Netherlands, for providing funding for this research, and a scholarship to the first author.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Declaration of no conflict of interest
The authors declare that they have no conflict of interest.
Rights and permissions
About this article
Cite this article
Mubanga, K.H., Ferguson, W. Threats to food sufficiency among smallholder farmers in Choma, Zambia. Food Sec. 9, 745–758 (2017). https://doi.org/10.1007/s12571-017-0700-4
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12571-017-0700-4