9 results
An economically sustainable integrated cassava seed system! Cassava is a major food and industrial crop in many African countries. However, until recently, there was no formal seed system for cassava. Most farmers relied on replanting old stems that were low-yielding and often infected with diseases. This traditional practice limited productivity and spread pests and diseases. The Building an Economically Sustainable Integrated Cassava Seed System (BASICS) model was developed to address this. It creates a complete and sustainable cassava seed system. It links farmers, seed entrepreneurs, regulators, and processors into one coordinated framework. The goal is to ensure that disease-free, improved varieties reach farmers reliably and consistently. This model has already been tested and applied in Nigeria and Tanzania.
Building stronger cassava seed businesses for African seed entrepreneurs and farmers. The Cassava Seed Association Model (CSAM) was developed as an institutional support system to enhance the efficiency and sustainability of cassava seed entrepreneurs. The model promotes the formation of structured associations of cassava seed producers, which offer collective benefits such as certification, access to finance, capacity building, and policy advocacy. This approach aims to reduce inefficiencies, improve seed quality, and strengthen market linkages, ultimately leading to a more resilient and sustainable seed production system. Its has been successfully validated in countries like Nigeria and Tanzania and is currently being scaled in Rwanda and Kenya. Over 2,700 seed entrepreneurs have benefited from this model, which addresses many of the challenges faced by individual seed producers in the cassava seed industry.
Transforming Cassava Farming Through Entrepreneurial Innovation! Cassava is a staple crop in Sub-Saharan Africa, crucial for food security and income generation. However, traditional cassava seed systems have been informal and unsustainable, relying on farmer-to-farmer sharing and sporadic free distributions by governments and NGOs. This approach has led to the widespread use of low-quality, disease-prone planting materials, resulting in reduced yields and limited adoption of improved varieties. The Cassava Seed Entrepreneur (CSE) Business Model offers a structured, market-driven solution to revitalize the cassava seed system. It empowers rural men, women, and youth to become certified seed entrepreneurs who produce and sell high-quality cassava planting materials. By integrating training, digital tools, and strategic partnerships, the model ensures the availability of clean, certified seeds, enhancing productivity and livelihoods.
Comprehensive tools to guide initiatives and organizations in implementing FAIR principles across data-rich agricultural development investments! The FAIR Process Framework is a structured approach designed to enhance the Findability, Accessibility, Interoperability, and Reusability (FAIR) of agricultural data. It provides practical steps, guidelines, and tools to help national programs, funders, and project implementers maximize the value of data across agricultural development initiatives. By integrating FAIR principles, stakeholders can improve data sharing, reduce duplication, enhance decision-making, and ensure long-term impact. The framework is flexible, allowing its adoption at any stage of a project or program. Additionally, expert support from CABI helps facilitate training and implementation, ensuring effective data governance for sustainable agricultural development.
Rice-Fish System Boosts Profits, Enhances Lowland Land Use for Food Security and Prosperity The rice-fish farming system emerged as a solution to address various agricultural challenges. It was developed to counter widespread food and nutrition insecurity, the vulnerability of smallholder rice farmers to market shocks due to a lack of diversification, and environmental pollution resulting from excessive agrochemical use. This innovative approach not only enhances food and nutrition security but also boosts smallholder farmers' income through the combined sale of rice and fish. Additionally, the system promotes environmental safety by eliminating the need for agrochemicals, contributing to sustainable and resilient agricultural practices.
Empowering Beans, Sustaining Growth! The technology is a low-cost and sustainable solution for staking climbing beans, offering lower-cost, environmentally friendly alternatives, reducing the required number of stakes and addressing yield limitations associated with traditional staking methods.
Secure Shelters, Thriving Flocks Small Ruminant Containment in Protective Sheds is a technology developed to address the challenges faced by small-scale livestock farmers. It offers a cost-effective solution for protecting goats and sheep from predators, inclement weather, and the spread of diseases to humans. By providing simple shelter options using locally available materials, this technology significantly improves the well-being and productivity of these small ruminants while remaining affordable for resource-constrained farmers.
Safeguarding Chickens and reducing Costs The "Low-Cost Cage and Free-Range Containment" is a special way to keep chickens safe and healthy while also saving money. It's like a movable house for chickens. During the day, the chickens get to run around outside and eat natural food like insects and plants. This makes them strong and healthy. This special chicken house is not expensive to build and is easy to move around. It's perfect for small farmers who can't afford big, fancy chicken houses. It also helps make sure the chickens are happy and well taken care of.
Revolutionize your fish farming with IPRS for maximum yields and sustainability. The In-Pond Raceway System (IPRS) is a pivotal advancement in aquaculture technology, revolutionizing fish farming practices. By ensuring continuous water flow and efficient waste management, IPRS allows for significantly higher fish stocking densities. This translates to a substantial boost in fish production compared to traditional methods. The technology's emphasis on water quality optimization, aeration, and waste removal addresses critical factors for fish growth. Its benefits extend beyond productivity, encompassing cost-effectiveness, improved feed conversion, and environmental sustainability. IPRS represents a crucial innovation in meeting the growing demand for sustainable fish farming practices, making it a cornerstone in modern aquaculture.