Research Article
Climate Change Adaptation Strategies and Their Determinants: Insights from Smallholder Farmers in Ethiopia
Habtamu Abaynew*
,
Nasir Ahmed,
Birhanu Argaw
Issue:
Volume 11, Issue 2, June 2025
Pages:
17-27
Received:
15 February 2025
Accepted:
19 April 2025
Published:
22 May 2025
Abstract: Climate change poses a significant threat to smallholder farmers by altering rainfall patterns, increasing temperatures, and intensifying extreme weather events. These changes result in reduced crop yields, water scarcity, and greater vulnerability to pests, threatening food security and livelihoods. In Ethiopia, particularly in the Haramaya District, the livelihoods of people are predominantly reliant on subsistence rain-fed agriculture, rendering smallholder farmers highly vulnerable to the impacts of climate change. The resilience of smallholder farmers is closely tied to their ability to adapt to changing climatic conditions. In the Haramaya District, severe climate change poses significant challenges for smallholder farmers in maintaining their agricultural livelihoods. Therefore, this study was conducted to examine the climate change adaptation strategies adopted by smallholder farmers in Haramaya District, Oromia National Regional State, Ethiopia. Both primary and secondary data sources were utilized. Primary data were gathered through household surveys involving 189 randomly selected smallholder farmers, as well as Focus Group Discussions (FGDs) and Key Informant Interviews (KIIs). Secondary data were obtained from prior studies and relevant institutional reports. The data were analyzed using descriptive statistics and a multinomial probit model. The findings of the study show that farmers adopted a variety of climate change adaptation strategies. The most commonly reported strategy was changing livestock type (22.75%), while changing the planting period was the least adopted (16.40%). Other notable strategies included soil and water conservation (22.22%), income diversification (20.63%), and the cultivation of drought-tolerant crops (17.99%). he multinomial probit model identified several factors that significantly influence smallholder farmers’ decisions in selecting adaptation strategies in response to climate change in the study area, such as age, access to climate information, livestock holdings, irrigation access, education level, frequency of extension visits, active labor size, and access to credit. The findings emphasize the urgent need for governmental and non-governmental organizations to strengthen support for smallholder farmers by improving access to credit, raising awareness about effective climate change adaptation strategies, and providing comprehensive extension services. Additionally, efforts should focus on enhancing educational opportunities, particularly in climate resilience, and investing in long-term climate mitigation initiatives. These measures are essential to enhance the adaptive capacities of farmers and ensure their sustainable livelihoods in the face of climate change.
Abstract: Climate change poses a significant threat to smallholder farmers by altering rainfall patterns, increasing temperatures, and intensifying extreme weather events. These changes result in reduced crop yields, water scarcity, and greater vulnerability to pests, threatening food security and livelihoods. In Ethiopia, particularly in the Haramaya Distri...
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Research Article
Multivariate Study of Heavy Metals, Dissolved Salts and Physicochemical Properties of Shetiko River Water, Kuje, Federal Capital Territory, Nigeria
Awogbemi Clement Adeyeye*,
Adedeji Sunday Asher,
Ilori Adetunji Kolawole,
Mabur Yaks Mafuyai,
Oyeyemi Gafar Matanmi
Issue:
Volume 11, Issue 2, June 2025
Pages:
28-41
Received:
14 January 2025
Accepted:
1 February 2025
Published:
6 June 2025
DOI:
10.11648/j.ajbes.20251102.12
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Abstract: Nigeria's extensive inland water resources are a significant asset, but they face severe threats from pollution driven by rapid urbanization, industrial activities, and inadequate waste management. The Shetiko River, like many others, plays a crucial role in supporting human activities such as sanitation, transportation, and irrigation. However, its vulnerability to contamination, particularly from untreated domestic, industrial, and agricultural waste, has led to ecological degradation, changes in ecosystem functions, and heightened health risks. This study analyzed water quality dynamics of Shetiko River by examining factors influencing heavy metals, physicochemical properties, and salinity (ionic content). Shetiko is located in Kuje, Federal Capital Territory (FCT), Abuja, Nigeria. Factor Analysis and Independent t-tests were used to identify the dimensionality and variation in water quality of Shetiko River. A rotated factor matrix identified three primary dimensions of water quality: heavy metal pollution (Factor 1), general physicochemical conditions (Factor 2), and ionic/salinity contributions (Factor 3). Seasonal variations indicated higher heavy metal and salinity levels during the wet season due to runoff, while the dry season exhibited more stable physicochemical properties. Locational differences revealed elevated heavy metal concentrations downstream, linked to anthropogenic activities, and higher salinity levels upstream, influenced by geological factors. Physicochemical conditions showed minimal variation across locations. These findings underscore the critical need for targeted water management strategies addressing seasonal and spatial variations to safeguard water resources and mitigate pollution impacts.
Abstract: Nigeria's extensive inland water resources are a significant asset, but they face severe threats from pollution driven by rapid urbanization, industrial activities, and inadequate waste management. The Shetiko River, like many others, plays a crucial role in supporting human activities such as sanitation, transportation, and irrigation. However, it...
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