en-us/nam/open-access-at-sage). 'economy-wide' challenge. In addition to air pollution, flooding and public health effects, solid waste contributes to climate change through methane production (Hoornweg and Bhada-Tata, 2012). This is an indication that the situation is detrimental to sustainable development and human wellbeing. Solid waste includes all wastes generated by humans and animals that is solid and usually seen as useless and often disposed of (Chengula et al., 2015). Waste can be classified as biodegradable and non-biodegradable (Mukui, 2013). It is often an urban challenge and catalysed by population increase due to increasing waste generation associated with high population. Improper waste generation leads to a number of health and environmental challenges while there is high environmental pollution at landfill sites. Chengula et al. (2015) described inadequate waste collection as a
Soybean is an important cash crop especially for farmers in the north of Ghana. However, cultivation of the commodity is dominated by smallholders equipped with traditional tools, coupled with low or no adoption of improved soybean production technologies. Using primary data collected from 300 soybean farmers across northern Ghana, the study employed count data modelling to estimate the determinants of adoption intensity of sustainable soybean production technologies. The study accounted for potential estimation errors due to underdispersion and over-dispersion, by using a model based on the generalized Poisson distribution. On the average, a farmer adopted 50% of the identified sustainable soybean production technologies. Age, education, extension visits, mass media through radio, and the perception of adoption of soybean production technologies being risky are significant with positive influence on the adoption intensity of sustainable soybean production technologies. The study therefore recommends among others, that various extension programmes should intensify education on the benefits of adopting sustainable soybean production practices. There is the need to set up many technology demonstration farms to give farmers hands-on training during field days.
This study analyzed gender differences in climate adaptation by farming households in Ghana. This involved 300 farmers from two districts of Ghana and the data analyzed using descriptive statistics. The results showed severer climate impacts on the livelihoods of females than males in Ghana. On the contrary, the adaptive capacity of males was found to be higher than that of females. This was supported by the observed differences in gender climate adaptation where both male heads and male household members had higher mean climate adaptations than both female heads and female household members. Overall, the climate adaptation strategies mostly adopted by both males and females include changing planting dates, row planting, planting early maturing and drought tolerant seed varieties, mixed farming, intercropping and refiling of farm plots. Except for zero tillage and intercropping, male farmers had high adoption levels than female farmers. It is concluded that the observed gender adaptation differences were due to the levels and intensity of adoption other than differences in the type of strategies adopted by the different gender groups. The Ministry of Food and Agriculture should consider integrating climate adaptation policies into current agricultural policies such as “planting for food and jobs” policy.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.