Climate Change and Livestock Production in Semi-Arid Regions: The Untapped Potential of Climate-Resilient Forages
Beatrice G. Togo *
Africa Centre of Excellence for Climate Smart Agriculture and Biodiversity Conservation, Haramaya University, P.O. Box 138, Dire Dawa, Ethiopia and Department of Livestock Research, Tanzania Livestock Research Institute (TALIRI), P.O. Box 5, Kongwa, Tanzania.
Salum O. Kuwi
Department of Livestock Research, Tanzania Livestock Research Institute (TALIRI), P.O. Box 5, Kongwa, Tanzania.
Ngassa J. Mussa
Department of Livestock Research, Tanzania Livestock Research Institute (TALIRI), P.O. Box 5, Kongwa, Tanzania.
Onesmo J. Lyahama
Department of Livestock Research, Tanzania Livestock Research Institute (TALIRI), P.O. Box 5, Kongwa, Tanzania.
Kabuni T. Kabuni
Department of Livestock Research, Tanzania Livestock Research Institute (TALIRI), P.O. Box 834, Dodoma, Tanzania.
Jovith A. Kajuna
Department of Livestock Research, Tanzania Livestock Research Institute (TALIRI), P.O. Box 5, Kongwa, Tanzania.
George F. Fupi
Department of Livestock Research, Tanzania Livestock Research Institute (TALIRI), P.O. Box 5, Kongwa, Tanzania.
Boniface R. Kasiba
Department of Livestock Research, Tanzania Livestock Research Institute (TALIRI), P.O. Box 5, Kongwa, Tanzania.
Jefta R. Mgalula
Department of Livestock Research, Tanzania Livestock Research Institute (TALIRI), P.O. Box 5, Kongwa, Tanzania.
Dauson K. Felix
Department of Livestock Research, Tanzania Livestock Research Institute (TALIRI), P.O. Box 5, Kongwa, Tanzania.
Liberatus V. Katabazi
Department of Livestock Research, Tanzania Livestock Research Institute (TALIRI), P.O. Box 5, Kongwa, Tanzania.
Edwine P. Mtei
Department of Livestock Research, Tanzania Livestock Research Institute (TALIRI), P.O. Box 5, Kongwa, Tanzania.
*Author to whom correspondence should be addressed.
Abstract
Climate change poses significant challenges to livestock production in the world's semi-arid regions. Rising temperatures, unpredictable precipitation, and frequent drought events contribute to reduced forage availability, thereby intensifying the socio-economic vulnerability of livestock-dependent households in semi-arid regions. The aim of this opinion article is to assess the potentials of the climate-resilient forages; like Chloris gayana, Cenchrus ciliaris, and Cenchrus setigerus; arguing that their underutilization is a critical oversight in the quest to fortify livestock systems. These hardy forages stand as sentinels of year-round feed security, breathing life back into depleted soils and playing a vital role in curbing greenhouse gas emissions. Beyond mere sustenance, these grasses bestow a wealth of ecological blessings, nurturing pastoral livelihoods and offering a lifeline to communities in distress. By staving off livestock mortality, diminishing the reliance on costly imported feeds, and injecting stability into precarious production systems, these forages emerge as indispensable allies. Moreover, cultivating these forages locally can quell conflicts sparked by resource scarcity and cultivate a climate of resilience in at-risk societies. While acknowledging the hurdles of adoption—rooted in cultural norms and resource constraints—this piece underscores that community engagement, governmental backing, and precisely targeted assistance can pave the way for widespread utilization. In essence, drought-tolerant forages serve as a linchpin, forging an unbreakable bond between sustainable livestock production and climate change adaptation, transforming vulnerability into a wellspring of resilience for the vast majority of pastoralists dwelling in semi-arid landscapes.
Keywords: Climate change, climate-resilient forages, livestock production, sustainable farming, semi-arid regions