7 results

IPM: Integrated Management of Insects, Diseases and Weeds in common bean

Smart Solutions for Safer Farming The technology "Integrated Management of Insects, Diseases, and Weeds" is of paramount importance that addresses several critical issues in Pest and Disease Vulnerability, Inappropriate Pesticide Usage, Pesticide Resistance, Food Security Concerns, Environmental Impact. The technology provides a solution through integrates various biological, mechanical, physical, and cultural methods to achieve more effective and sustainable crop protection. IPM is a vital strategy to combat the challenges posed by pests and diseases, ensuring food security, and promoting responsible agricultural practices.


Validated (TAAT1) 7•7 4 Cost: $$$

IPM: Integrated Management of Insects, Diseases and Weeds in Wheat

Balanced Protection for Sustainable Harvests Integrated Management of Insects, Diseases, and Weeds in Wheat (IPM) is an approach designed to minimize the use of chemical pesticides while maximizing natural control mechanisms for pests. It involves a combination of biological, mechanical/physical, and cultural techniques tailored to local conditions. IPM is crucial in preventing the emergence of pesticide-resistant pests, ensuring lasting crop protection, and maintaining food safety and environmental integrity.


Validated (TAAT1) 8•9 4 Cost: $$$ ROI: $$$

Conservation agriculture: Minimal Tillage and Surface Mulching of Soils

Conservation Agriculture for Sustainable Farming In regions like Sub-Saharan Africa, where dry tropical conditions and diminishing soil fertility pose significant challenges to wheat production, the adoption of Minimal Tillage and Surface Mulching of Soils is paramount. Traditional farming practices, characterized by excessive tillage and minimal organic matter incorporation, have led to the degradation of crucial soil functions, including nutrient retention and water management. With dwindling water resources due to drought spells and overexploitation, Conservation Agriculture (CA) emerges as a cost-effective solution. CA enhances wheat grain yields, ensures resilience to water scarcity, and benefits both farmers' incomes and the environment by promoting soil biodiversity, reducing emissions, and sequestering carbon, making it a vital strategy for sustainable wheat production in dryland farming systems.


Validated (TAAT1) 8•7 4 Cost: $$$

Stepwise Climate Smart Investment Pathway

Accessible best agricultural practices for everyone The "Stepwise Approach" is a structured methodology developed by the IITA research team and its partners, particularly under the CGIAR Research Program on Climate Change, Agriculture, and Food Security (CCAFS). This approach is tailored to assist smallholder coffee farmers in Uganda in adopting Climate Smart Agriculture (CSA) practices. It functions by breaking down recommended, yet often unaffordable, best practices into smaller, more economically feasible packages that can be implemented gradually in phases. The Stepwise Approach takes into account specific agro-ecological variables and addresses the needs and aspirations of farmers to guide incremental investments in a systematic manner. It aims to inform and guide farmers on the most efficient investments required to enhance coffee yields, improve farmer livelihoods, and increase resilience to climate change effects. Additionally, it contributes to increasing awareness and knowledge about climate-smart agricultural practices among farmers and assists both the public and private sectors in effectively targeting extension support to smallholder coffee farmers.


Validated (TAAT1) 5•4 4

Relay intercropping of sweet potato with legumes

Harvest More, Worry Less with Sweet Potato-Legume Relay Intercropping Relay intercropping of sweet potato with legumes revolutionizes agriculture by increasing yields, optimizing land and resource use, and reducing pest damage. This method enhances soil nitrogen availability, promoting sweet potato tuber production while reducing the need for nitrogen fertilizers. It not only ensures a more nutritious diet for subsistence farmers but also safeguards against food shortages during crop failures caused by drought or pests.


Validated (TAAT1) 8•8 4

In-Vitro Banana Tissue Culture Propagation

A rapid quality plantlets delivery technology for banana In-Vitro Tissue Culture Propagation involves laboratory-based propagation of disease-free banana and plantain through tissue culture. It allows for the rapid production of uniform and disease-free plantlets, aiding in faster recovery from disease outbreaks and extreme weather conditions.


Validated (TAAT1) 8•8 2 Cost: $$$ ROI: $$$

Biosecurity for Disease Prevention

Safeguarding Poultry Health Biosecurity is essential in poultry farming to prevent disease introduction and spread. It involves preventive measures to reduce risks, such as external disease entry, internal transmission, and disease carryover. Diseases can lead to severe consequences, justifying the need for strong prevention. Regional collaboration among poultry producers enhances the effectiveness of biosecurity practices.


Validated (TAAT1) 8•7 4 ROI: $$$