- Development Finance & Policy (35) Apply Development Finance & Policy filter
- Aid & Other Development Finance (18) Apply Aid & Other Development Finance filter
- Global & Regional Public Goods (8) Apply Global & Regional Public Goods filter
- Monitoring & Evaluation (2) Apply Monitoring & Evaluation filter
- Political Economy & Governance (15) Apply Political Economy & Governance filter
- Household Well-Being & Equity (53) Apply Household Well-Being & Equity filter
- Education & Training (8) Apply Education & Training filter
- Food Security & Nutrition (23) Apply Food Security & Nutrition filter
- Gender (34) Apply Gender filter
- Health (19) Apply Health filter
- Labor & Time Use (20) Apply Labor & Time Use filter
- Poverty (13) Apply Poverty filter
- Risk, Preferences, & Decision-Making (10) Apply Risk, Preferences, & Decision-Making filter
- Sustainable Agriculture & Rural Livelihoods (146) Apply Sustainable Agriculture & Rural Livelihoods filter
- Agricultural Inputs & Farm Management (71) Apply Agricultural Inputs & Farm Management filter
- Agricultural Productivity, Yield, & Constraints (59) Apply Agricultural Productivity, Yield, & Constraints filter
- Environment & Climate Change (26) Apply Environment & Climate Change filter
- Finance & Investment (11) Apply Finance & Investment filter
- Market & Value Chain Analysis (79) Apply Market & Value Chain Analysis filter
- (-) Remove Technology filter Technology
Types of Research
- East Africa Region and Selected Countries (4) Apply East Africa Region and Selected Countries filter
- Global (0)
- South Asia Region and Selected Countries (5) Apply South Asia Region and Selected Countries filter
- Southern Africa Region and Selected Countries (0)
- Sub-Saharan Africa (17) Apply Sub-Saharan Africa filter
- West Africa Region and Selected Countries (3) Apply West Africa Region and Selected Countries filter
Sorghum grows well in arid and semi-arid agroecological zones and is thus one of the most important cereals in the Sahel region of Sub-Saharan Africa (SSA). Both men and women cultivate sorghum primarily for household consumption, though women are nearly exclusively responsible for post-harvest production of the grain, including brewing and selling sorghum beer. This brief provides an overview of the role of women in sorghum production, and provides a framework for analyzing barriers to women and technology’s impact on women throughout the cropping cycle. We find that improved sorghum varieties have the potential to greatly increase sorghum yields in SSA by alleviating cultivation threats from striga, pests, and drought. Because women farmers are the primary cultivators of sorghum, they stand to benefit most from these improved varieties. However, low adoption rates of new technologies suggest that more resources need to be dedicated to extension efforts and informal seed distribution networks that include women farmers. Post-harvest processing of sorghum is both time and labor intensive and is causing many women farmers to transition to maize or rice. Finally, increased demand for sorghum as a biofuel stock may not translate into gains for women farmers as expected, because women farmers tend to lack input resources, and women farmers often lose control over crops as they transition to cash crops.
In Sub-Saharan Africa (SSA), maize alone provides an estimated one third of the mean caloric intake and in 2006, accounted for 21% of all harvested food crops, making it the single most important food crop in the region. In addition, maize is also used as feedgrain and fodder, adding to its importance in integrated smallholder farming systems in SSA. In general, women are the main producers of staple crops such as maize. Understanding the gender dimensions of maize is particularly challenging because maize is used as both a subsistence and cash crop, and may be considered either a male or female crop depending on farmer circumstances and how the particular variety is promoted. This brief provides an overview of the role of women in maize production, and provides a framework for analyzing barriers to women and technology’s impact on women throughout the cropping cycle. We find that lower access to factors such as extension access, education level, land, and labor contribute to female’s lower rate of maize technology adoption. Understanding women’s disproportionate access to resources and how improved technology may change allocation of resources should help project developers improve both women’s and men’s productivity.
In the last half century, the increased opportunity cost of women’s time in Sub-Saharan Africa (SSA) has led to remarkable growth in the consumption of wheat and other easy-to-prepare staples. Wheat tends to be grown and processed on a large scale in SSA. Ethiopia (SSA’s largest producer of wheat) is the exception, where smallholders are responsible for 76% of total production. This brief provides an overview of the role of women in wheat production, and provides a framework for analyzing technology’s impact on women throughout the cropping cycle. We find that many constraints exist to adoption of improved wheat varieties by women. A review of improved wheat variety adoption in the developing world found that it takes 5-10 years after breeding to the release and another 5-10 years for full adoption, but this length of time has been found to be reduced with the use of participatory breeding, varietal selection, and gender analysis. By including women in every stage of development and planning of new technologies, programs can become more aware of the needs of targeted women and therefore, increase adoption rates and improve the productivity of men and women in wheat farming.
As a source of employment for over 20 million Sub-Saharan African (SSA) farmers and the fastest-growing food source in Africa, rice plays a vital role in African economies and daily life. Women play a substantial role in SSA rice production and rely heavily on the income it generates. Not recognizing this role has often resulted in development and research projects failing to address women’s well-being and also failing to achieve project and development goals. Female farmers in SSA have been less likely than male farmers to adopt productivity-enhancing rice technologies such as improved seeds, fertilizer, pesticides, or small machinery, even when those technologies are designed specifically to help women. A more complete understanding of the dynamics and diversity of gender roles in rice farming is necessary to improve the likelihood of successful interventions. This brief provides an overview of the role of women in rice production, and provides a framework for analyzing technology’s impact on women throughout the cropping cycle. We find that labor constraints, low education levels, cultural inappropriateness, and asymmetric access to resources all contribute to low adoption of rice technology by women. In order to fully realize the poverty reduction benefits of increased rice production in SSA, evidence suggests that research and extension programs must consider how interventions will affect women along every stage of the production chain. The effect on women and their households will vary depending on region, culture, ethnicity, socio-economic status, and role in cultivating rice.
- « first
- ‹ previous