The sustainable development of the rice sector in Ghana is constrained by environmental, socioeconomic, research and development factors. Productivity is generally low, about 1 mt/ha under upland and rain-fed lowland rice ecologies which dominate rice production systems in the country. The release and diffusion of the New Rice for Africa (NERICA) varieties across many countries in Africa (including Ghana) brought renewed hope to both farmers and the research community because of the desirable qualities associated with the NERICAs, and therefore their potential to improve food security on a sustainable basis. This study therefore sought to assess the extent of exposure and adoption of the NERICA varieties across the rice growing districts in Ghana, and determine the key factors that affect adoption. A total of 489 rice producing households from three districts (Ejura-Sekyedumase, Hohoe and Tolon-Kumbungu) were involved in the study. The study employs the average treatment effect (ATE) methodology which provides an appropriate framework for the identification and consistent estimation of the population adoption rate and that of the determinants of adoption. The study finds that exposure to NERICA varieties is generally low in Ghana with an average rate of about 6%. Similarly, the adoption of improved rice varieties is low, and the adoption of NERICA varieties is about 6% of the total sample surveyed. The study shows that experience, education and location are important determinants of exposure, while age and access to extension also affect adoption. It is therefore recommended that much effort and resources should be invested in promotional activities to facilitate both the exposure and adoption of the NERICAs among farmers in Ghana.
Prior on-station research showed that sowing dates, sowing density and applications of fungicide and phosphorus (P) increased groundnut (Arachis hypogaea) pod yield by 60-80%. Farmer-managed trials were conducted in the Wa district of the Upper West Region of Ghana from 2004 to 2007 to test the yield response to sowing density, fungicide and P and to assess economic returns of these technologies to farmers. Treatments included: an early maturing groundnut cultivar, Chinese, sown at farmers' density (5-8 plant m −2 ) without fungicide and without P application (T1, control), with fungicide sprays alone (T2), or with fungicide and P application (T3), cultivar Chinese sown at recommended (higher) density (20 plant m −2 ) with fungicide and P application (T4), and a full season cultivar, Manipinter, with fungicide and P application (T5). Soil fertility, sowing density, days from sowing to first weeding, incidence and severity of leaf-spot disease and plant population at final harvest were recorded. Relative to farmers' practice, pod yield of cultivar Chinese was significantly increased by 80% with fungicide sprays alone, 108% with fungicide and P application, and 113% with fungicide and P application at higher sowing density. Cultivar Manipinter treated with fungicide and P gave 107% increase in pod yield relative to farmers' practice. Correlation and stepwise regression analyses suggested that major determinants of groundnut pod yield in farmers' fields were plant density, leaf-spot disease and P availability. The increase in yield with fungicide and P application translated into a 4-5-fold increase in gross margin for farmers in the region. Returns to labour and labour productivity were doubled with combined use of fungicide and P fertilizer.
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