Determinants of Variations in Drought Vulnerability among Cattle Keeping Households in Migori County
Résumé
Cattle keeping plays a crucial role in ensuring food security and fulfilling socio-cultural functions in both developed and developing regions. However, most cattle in these regions are often raised under extensive production systems, making them highly vulnerable to harsh environmental conditions. Among the most pressing challenges facing cattle production in sub-tropical regions is drought, which leads to severe water scarcity and depletion of grazing resources, resulting in reduced cattle productivity, increased susceptibility to diseases and, in extreme cases, high mortality rates. This study examined variations in drought vulnerability among cattle-keeping households in Migori County. In semi-arid areas of Migori County, cattle keeping plays vital economic and socio-cultural roles but is increasingly affected by drought-related challenges such as water scarcity, pasture depletion, and livestock diseases. The study was conducted in Nyatike and Kuria West Sub-Counties of Migori County, selected for their diverse agro-ecological zones affecting livestock farming. Data were collected through structured household questionnaires, key informant interviews, and direct observation, with a stratified sample of 383 households proportionately drawn from four wards. The study found that decreased pasture (χ² = 249.335, p = 0.000), reduced milk yield (χ² = 211.607, p = 0.000), and water-related stressors such as declining water points (χ² = 188.864, p = 0.000) and increased distance to water (χ² = 97.545, p = 0.000) were the most significant factors influencing drought severity among cattle-keeping households. Emaciation of livestock and increased incidences of cattle diseases also showed significant associations, though perceptions varied. Low cattle prices were significant but unevenly experienced. These findings underscore the importance of ecological factors over economic ones in shaping household drought vulnerability. Households with limited income sources and heavy dependence on cattle were more susceptible to drought effects, while those engaging in diverse livelihood activities showed greater resilience. Environmental stressors and inadequate access to resources further exacerbated vulnerability. The study underscores the importance of integrated interventions such as water infrastructure development, improved veterinary services, and livelihood diversification to enhance household resilience
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Références
Behnke, R., & David, M. (2011). The contribution of livestock to the Kenyan economy. IGAD LPI Working Paper No. 03-11.
Jemberu, W. T., Mourits, M. C. M., Woldehanna, T., & Hogeveen, H. (2014). Epidemiology of Foot and Mouth Disease in Ethiopia: A retrospective analysis of outbreak reports from 2007–2012. Transboundary and Emerging Diseases, 61(4), 285–300.
Kairu, P. K. (2002). Land degradation and agricultural productivity in the drylands: A case study of dryland agriculture in the Laikipia District, Kenya. University of Nairobi.
Knight-Jones, T. J. D., & Rushton, J. (2013). The economic impacts of foot and mouth disease – What are they, how big are they and where do they occur? Preventive Veterinary Medicine, 112(3-4), 161–173.
Krejcie, R.V. & Morgan, D.W. (1970). Determining Sample Size for Research Activities. Educational and Psychological Measurement, 30:607-610.
Mbogo, B., Binns, T., & Wambua, P. (2014). The impact of climate variability and change on agriculture in semi-arid Kenya: The case of Makueni County. Journal of Rural and Community Development, 9(2), 73–95.
MoALF (Ministry of Agriculture, Livestock and Fisheries). (2017). Kenya Climate Smart Agriculture Strategy 2017–2026. Government of Kenya.
Morton, J. (2005). Pastoralist coping strategies and emergency livestock market intervention. In J. Morton (Ed.), Drought and Pastoralism in East Africa (pp. 61–72). Humanitarian Practice Network.
Mupawenda, A. (2009). Livestock Sector Evolution and Adaptation to Climate Change in Eastern Africa. In Proceedings of the 6th African Agriculture Science Week.
Mutabazi, K. D., & Wambugu, S. K. (2017). Innovations in climate adaptation: Fodder diversification among East African pastoralists. African Journal of Climate Policy, 4(2), 130–144.
Ndikumana, J., Kamidi, R., & Njoroge, J. (2000). Intensification of livestock systems in the highlands of East Africa: The role of research and development. ILRI.
Esikuri, E. E. (2005). Mitigating the Impact of Climate Change on Kenya's Water Resources. World Bank.
Nyamusamba, M., Mango, L., & Ogallo, L. (2017). Impacts of climate change on livestock systems in developing countries. International Journal of Climate Change Strategies and Management, 9(3), 364–380.
–2009 Kenya drought. (2009). In Wikipedia. Retrieved from Wikipedia.
Panda, A. (2017). Effect of drought on livestock and livelihood in Odisha. Asian Journal of Research in Social Sciences and Humanities, 7(2), 44–54. https://doi.org/10.5958/2249-7315.2017.00014.7
Reed, M. S., Stringer, L. C., Dougill, A. J., Perkins, J. S., & Atlhopheng, J. R. (2015). Reorienting land degradation toward sustainable land management: Linking sustainable livelihoods with ecosystem services. Journal of Environmental Management, 151, 472–485.
Roseboom, J., Beintema, N., & Pardey, P. G. (2016). Agriculture and the economy: Investment in R&D. IFPRI Annual Report, Washington, DC.
Rosegrant, M. W., Ringler, C., & Zhu, T. (2002). Water for Agriculture: Maintaining Food Security under Growing Scarcity. IFPRI.
Schreiner, K., Wiebelt, M., & Breisinger, C. (2018). Building resilience to drought in Kenya’s arid and semi-arid lands. IFPRI Discussion Paper 01702.
Speranza, C. I. (2010). Drought coping and adaptation strategies: Understanding adaptations to climate change in agro-pastoral livestock production in Makueni District, Kenya. European Journal of Development Research, 22(5), 623–642.
Thornton, P. K., van de Steeg, J., Notenbaert, A., & Herrero, M. (2009). The impacts of climate change on livestock and livestock systems in developing countries: A review of what we know and what we need to know. Agricultural Systems, 101(3), 113–127.
Turner, B. L. (2000). Vulnerability and resilience in the semi-arid regions: A human-environment systems approach. Global Environmental Change, 10(4), 213–217.
UNEP. (2020). Preventing the next drought disaster: The role of ecosystem-based approaches. United Nations Environment Programme.
FAO. (2015). World Livestock 2013: Changing disease landscapes. Food and Agriculture Organization of the United Nations.
FAO. (2018). Building resilience to climate change in dryland pastoral systems. Food and Agriculture Organization.
Gebremedhin, B., Tesfaye, K., & Mamo, G. (2021). Utilization of cactus (Opuntia ficus-indica) as livestock feed in arid areas of Ethiopia. Journal of Arid Agriculture, 7(1), 45–52.
GoK. (2013). National Climate Change Action Plan 2013–2017. Nairobi: Ministry of Environment and Mineral Resources.
GoK. (2017). Migori County Integrated Development Plan 2018–2022. Migori County Government.
GoK (Government of Kenya). (2019). Kenya Population and Housing Census – Analytical Report on Agriculture. Kenya National Bureau of Statistics (KNBS).
Herrero, M., Thornton, P. K., Gerber, P., & Reid, R. S. (2010). Livestock, livelihoods and the environment: Understanding the trade-offs. Current Opinion in Environmental Sustainability, 2(5-6), 278–285.
Kenya National Bureau of Statistics. (2019). 2019 Kenya population and housing census reports. https://www.knbs.or.ke/?wpdmpro=2019-kenya-population-and-housing-census-reports
Naumann, G., Alfieri, L., Wyser, K., et al. (2020). Next generation drought intensity–duration–frequency curves for global change projections: The case of the Borana pastoral region. Climate, 13(2), 31–45.
Panda, A. (2017). Vulnerability to climate variability and drought among small and marginal farmers: A case study in Odisha, India. Climate and Development, 9(7), 605–617.
Tofu, D. A., Fana, C., Dilbato, T., Dirbaba, N. B., & Tesso, G. (2023). Pastoralists’ and agro pastoralists’ livelihood resilience to climate change induced risks in the Borana zone, Oromia region, southern Ethiopia. Pastoralism, 13, Article 4.
Copyright (c) 2025 Pauline Wegesa Nyamohanga, Kennedy Nyabuti Ondimu, PhD, Amon Mwangi Karanja, PhD
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