New technologies will be added regularly to this e-catalog.
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Boost yields, and income with advanced maize. TEGO is an innovative agricultural solution designed to address the challenges of drought resilience and food security in maize cultivation. By integrating advanced breeding techniques, genetic traits for drought tolerance, and climate-smart agricultural practices, TEGO technology offers a comprehensive approach to improving agricultural productivity and sustainability. Key features include the development of maize hybrids with enhanced drought tolerance and high yield potential, promotion of sustainable farming practices to conserve natural resources and mitigate environmental degradation, and provision of training and extension services to empower farmers with the knowledge and tools needed to adapt to changing climatic conditions. TEGO technology represents a promising solution for enhancing resilience to drought and climate variability, thereby contributing to food security and livelihoods in agricultural communities worldwide.
Local African aromatic rice The African Aromatic Rice technology helps African farmers grow special and tasty rice that people really like. This rice is in high demand, but not enough of it is grown in Africa right now. This means farmers can make more money, and Africa won't have to rely on importing this rice from other places. It's like a special secret that helps African farmers grow better rice and have a better income.
Transforming Cassava, Mobile Processing for Sustainable Agriculture The Mobile Cassava Processing Plant (MCPP) addresses challenges in cassava commercialization by providing an alternative to immobile processing factories. The MCPP, developed by the TAAT Cassava Compact, is a six-wheel truck with modern processing machinery, an electricity generator, and a loader crane. It facilitates on-site processing of cassava into shelf-stable products, reducing postharvest losses and transportation costs.
Enhancing cassava yields and quality for greater food security in Africa. Improved cassava roots with higher dry matter and starch content are crucial for farmers. These qualities determine how cassava can be used, whether for making flour, chips, or industrial materials. In Sub-Saharan Africa, cassava crops often have low levels of these important traits due to limited accessible varieties. Enhancing root quality is a significant opportunity for the future, benefiting both food security and the agri-food industry. Breeding cassava for these traits is essential to meet local and regional market demands. This leads to higher economic yields for farmers, providing more food and income from the same area of land.
Low-cost natural pest control "Biological control of the pod borer Maruca vitrata with exotic parasitoids" is of significant importance in addressing the extensive damage caused by this pest to cowpea crops. By introducing specific parasitic wasps from the World Vegetable Center labs in Taiwan, this approach has led to a remarkable reduction in the Maruca vitrata population, often exceeding 85%, in regions such as Benin and Burkina Faso. The collaboration between national agencies in releasing these parasitoids and their subsequent establishment on wild vegetation before moving to cowpea fields during the cropping season demonstrates the effectiveness of this biological control method. Furthermore, this technology is complemented by the use of resistant or tolerant cowpea varieties and the application of eco-friendly products like neem or other compatible biopesticides. These additional measures not only help combat companion pests like aphids and thrips but also significantly reduce the reliance on chemical pesticides, if not entirely replacing them. In essence, the biological control of the Maruca vitrata pod borer with exotic parasitoids represents a sustainable and environmentally friendly approach to pest management, contributing to higher cowpea yields and food security while minimizing the ecological impact of chemical pesticides.
Hatching Success, One Chick at a Time The natural incubation of hens is limited to producing 10-12 chicks per hatch, hindering the rapid expansion of poultry breeds and a dependable supply of young birds for poultry farming. Artificial hatching in semi-automatic incubators allows for the raising of day-old chicks (DOCs) within 21 days, with a successful hatching rate of 85-90% for fertilized eggs. This method saves space and reduces production costs, contributing to increased profits. Additionally, artificial hatching offers the advantage of rapid chick production, on-demand planning, and prevents the spread of parasites and diseases. The enhanced chick supply boosts egg and poultry meat consumption, resulting in higher incomes for chicken farmers.
Efficient rice threshing and polishing for premium quality grains, boosting income and market access in african communities. This technology greatly improves rice processing in Sub-Saharan Africa. It uses advanced machines like motorized threshers and polishers to replace manual methods. These machines can be easily moved near the fields, reducing transportation costs and increasing processing capacity. They work precisely, getting more rice without damage. This raises the quality and value of the rice, benefiting both small and large-scale farmers. Additionally, using these machines creates job opportunities. This represents a significant step towards modernizing rice processing and improving livelihoods for farmers in the region.
Reduce milling losses, enhance nutritional and organoleptic quality Parboiling is a process whereby rough rice is steeped in cold or warm water, heated with steam under pressure or in boiling water to gelatinize starch with minimum grain swelling, followed by slow drying. The nutritional, flavor and textural characteristics of parboiled rice are better than non-parboiled counterparts and can match the quality of imported rice making it more appealing to consumers. Traditionally, parboiling is carried out in a cast iron drum with a false bottom for soaking and steaming that is placed on a three-stone fire, which is severely expose processors to air pollution from emissions of carbon monoxide and fine particulate matter (PM 2.5). These easy-to-build systems are highly suitable for small to medium scale processors in rice growing areas of Sub-Saharan Africa that have poor energy and market infrastructures.
Arica rice, the high yield, disease and stress tolerant rice A new generation of high-performing and locally adapted hybrid rice cultivars has been launched since 2013 through breeding programs in Sub-Saharan Africa, which are known as ARICA varieties. This brand of improved germplasm is the successor to NERICA varieties and provides opportunities to rice farmers and traders on the continent because these new varieties are well adapted to the growing environments and have better grain quality preferred by the local market. ARICA varieties are developed and certified through processes establish by a joint breeding task force which ensures strict quality assurance. Genetically, ARICA varieties are not restricted to interspecific crosses, so any line that shows promise regardless of its origin can be picked up line as long as its performance is convincing. Breeders’ assessments of new lines are backed by field data collected over a number of years. The hybrid rice varieties that were released across Sub-Saharan Africa have proven to be an avenue for boosting the levels of rice productivity and profitability at the base of this major food staple value chain.