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Adaptation strategies to the impacts of climate change: smallholder farmers’ decision-making on climate-smart practices adoption

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dc.contributor.advisor Cavane, Eunice
dc.contributor.author Calvince, Andele O.
dc.date.accessioned 2026-07-08T10:08:35Z
dc.date.available 2026-07-08T10:08:35Z
dc.date.issued 2026
dc.identifier.uri http://www.repositorio.uem.mz/handle258/1650
dc.description.abstract Climate change severely threatens stallholder agriculture in Mozambique, where frequent droughts, floods, and cyclones undermine food security. Climate-smart agriculture (CSA) offers resilience-enhancing practices, yet despite decades of promotion, adoption among smallholders remain low, limiting climate adaptation. This thesis investigates farmers’ perceptions of CSA practices and determinants of adoption, and synthesizes evidence on how digital agricultural technologies influence CSA decision-making. The study comprises a cross- sectional survey of 400 smallholder farmers in Zavala district, Mozambique, and a systematic review of 82 studies across sub-Saharan Africa. Results show that awareness of 13 CSA practices ranged from 47-100%. Three awareness-knowledge patterns emerged–awareness exceeding knowledge (rainwater harvesting, 81% awareness vs. 39% knowledge), knowledge exceeding awareness (improved varieties, 67% knowledge vs. 47% awareness), and aligned awareness and knowledge patterns for eight practices. Understanding of CSA principles lagged considerably (r = 0.151) with knowledge. Perceived compatibility (β = 0.342) and trialability (β = 0.418) were the strongest adoption drivers. The systematic review identified three complementary pathways through which digital technologies influence perceptions: real-time information provision, predictive analytics and integrated indigenous-scientific systems. Education was the strongest predictor of awareness-knowledge pattern: secondary-educated farmers knew nearly triple the practices of primary-only farmers (11.60 vs 6.82, p < 0.001). Women outperformed men on awareness (11.34 vs 7.47), knowledge (10.21 vs 6.82) and principles (9.45 vs 6.24) all at p < 0.001. Multinomial logistic regression showed that age (OR = 0.391), male gender (OR = 0.068), farming experience (OR = 1.322), and cooperative membership (p < 0.026) significantly differentiated adoption levels. Linear regression explained 83% of variance in awareness, 87% in knowledge but only 7.6% in understanding of principles. Systematic review identified interconnected infrastructural, economic, institutional, and gender as barriers to adoption. These findings imply that extension should shift from awareness campaigns to principle-based participatory training, align terminologies with farmers language, invest in secondary education, leverage women as peer educators, and address structural barriers like infrastructural, credit, and land rights. Digital technologies require simultaneous investment in enabling environments to scale, and adoption depends more on deep understanding and compatibility than simple awareness en_US
dc.language.iso eng en_US
dc.publisher Universidade Eduardo Mondlane en_US
dc.rights openAcess en_US
dc.subject Climate-Smart agriculture en_US
dc.subject Digital agricultural technology adoption en_US
dc.subject Decision- making en_US
dc.subject Smallholder farmer en_US
dc.title Adaptation strategies to the impacts of climate change: smallholder farmers’ decision-making on climate-smart practices adoption en_US
dc.type thesis en_US


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