ABSTRACT Soil degradation threatens agricultural productivity across Africa, necessitating effective conservation strategies. However, gaps remain in understanding the mechanisms that drive agricultural technology adoption and dissemination. This study applies the theories of innovation diffusion, social networks, and risk aversion to examine the adoption and dissemination of Zaï pits, stone lines, and organic manure among sorghum farmers in Burkina Faso. The results reveal that Zaï adoption is strongly associated with farm size. A one‐unit increase in log landholding raises the likelihood of adoption by 8%. This finding supports the diffusion theory, which states that resource‐rich farmers absorb risk and benefit more. Moreover, social networks are significant. Each one‐percentage‐point increase in native residents boosts adoption by 0.77–0.80 points. Furthermore, native household heads are 12 percentage points more likely to share Zaï and advise an average of 7.7 more peers. Each additional level of education completed adds an average of 2.18 peer advisories. Extension‐informed farmers advise an average of 15 peers, demonstrating that homophily and knowledge networks drive diffusion. However, risk aversion has a minimal impact, with 0.3 fewer peer advisories (less than 1%) and no significant effect on Zaï, stone line, or manure use. Stone line adoption is more common in male‐headed households, likely due to labor requirements, whereas organic manure use depends on land and village composition rather than innovativeness or risk attitude. These findings suggest that enhancing structural supports, such as land access, education, and extension, and leveraging community networks benefit scaling conservation practices more than shifting farmers' risk preferences.
Lee et al. (Fri,) studied this question.
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