New technologies will be added regularly to this e-catalog.
15 results
The largest free resource for biological plant protection! In promoting sustainable agriculture and food systems, development actors often struggle to identify and scale effective biocontrol solutions due to scattered information and inconsistent product registration across countries. The CABI BioProtection Portal responds to this challenge with a free, multilingual platform that aggregates verified data from national regulatory authorities on bioprotection products, categorized by crop, pest, and country. Usable online and offline, it supports evidence-based program design, investment planning, and technical advisory services. The portal helps development partners promote integrated pest management (IPM), reduce chemical dependency, and accelerate climate-smart agriculture aligned with their sustainability and food security mandates.
Virus diagnostic tool for cassava seed health certification by seed producers and seed certifiers. Cassava virus indexing uses PCR and LAMP diagnostic methods to detect and eliminate virus-infected cassava planting materials. It ensures virus-free plants for seed production, improving seed quality, crop resilience, and food security. Key costs include lab setup (USD 20,000) and sample testing (USD 3/sample). Training for staff and collaboration with research and seed certification bodies are crucial for successful implementation.
Making Cassava Seed Systems Work Better ME-CASS is a digital platform that tracks cassava seed from breeder to farmer. It improves traceability, monitors seed quality, and supports better planning and coordination across the cassava seed system.
Breeder & Foundation Cassava Seeds—Always Within Reach This technology enables seed companies and certified producers to multiply and supply breeder and foundation cassava seeds directly from research centers. It follows national seed certification standards, uses both in-house and outgrower schemes, and ensures that farmers and seed entrepreneurs get access to clean, high-quality planting material. Registration with seed authorities and proper field inspection are required for participation.
Boost efficiency in animal sample extraction and improve target amplification Thermo Fisher Scientific’s Animal Health technology suite offers a range of advanced diagnostic tools designed for precise pathogen detection, with a focus on avian diseases like avian influenza. Key components include Real-Time PCR Diagnostic Kits, which provide highly sensitive detection for early disease identification; VetMAX Master Mixes for accurate PCR amplification; MagMAX Core Extraction Kits that streamline DNA/RNA extraction from diverse samples; and the QuantStudio 5 Real-Time PCR System for high-throughput, rapid diagnostics. Supporting SDGs 3 (Good Health) and 12 (Responsible Consumption and Production), this suite enhances disease management, minimizes losses, and promotes responsible production. Targeting veterinary labs, researchers, and farms, the technology can be distributed through resellers or direct partnerships with clinics and development agencies. With flexible pricing based on kit and sample volume, it offers high ROI potential from reduced animal losses and improved productivity. Thermo Fisher’s technology stands out for its speed, precision, and accessibility, making it ideal for regions in Africa to strengthen animal health and agricultural resilience.
MahuWévi, the solution for aquaculture that sustainably feeds The MahuWévi is an advanced oxygenation system designed for sustainable fish farming in sub-Saharan Africa, particularly for tilapia. It provides efficient, low-cost oxygen enrichment, ensuring high dissolved oxygen levels through short, regular micro-injections, while operating with minimal energy use. This technology reduces water demand by 50%, lowers nitrogen and phosphorus runoff, and enhances water recycling for crop irrigation, supporting a circular economy. Adaptable to various users, MahuWévi boosts profitability (with an ROI of 30%) and aligns with key SDGs by promoting food security, environmental sustainability, and economic opportunities for youth and women in aquaculture.
Low cost fertilizer for healthy and profitable agriculture for African farmers. In Sub-Saharan Africa, farmers face significant challenges such as declining soil fertility, limited access to quality fertilizers, and the high cost of agricultural inputs, all of which affect crop yields and food security. The BSFF technology presents a promising solution to these challenges. It contains high levels of essential nutrients like nitrogen (1.7–1.9%), phosphorus (1.0–2.5%), potassium, and various micronutrients that significantly improve soil fertility. This technology can help farmers in Sub-Saharan Africa increase productivity, improve food security, and promote environmentally sustainable agriculture.
Biochar, a powerfully circular way to fight climate change Soil degradation and unsustainable energy use are two pressing barriers to agricultural development and climate adaptation across Africa. Over 40% of soils are unable to retain water or nutrients, resulting in poor crop yields despite fertiliser inputs. Farmers use only 20 kg of fertiliser per hectare—compared to the global average of 135 kg—because of affordability and inefficiency. In parallel, 70% of people in sub-Saharan Africa depend on biomass for energy, contributing to environmental degradation. These interconnected challenges directly impact food security, environmental health, and resilience to climate change. Biochar provides a cross-cutting solution: it improves soil quality, enhances fertilizer effectiveness, reduces deforestation, and sequesters carbon. Supporting biochar initiatives aligns with climate action, sustainable agriculture, and green energy agendas. It offers a high-impact investment for building resilient food systems and restoring ecosystems.
Unleash Prosperity with Our Drought-Tolerant White Grain Sorghum Hybrid This groundbreaking technology in high-yielding white grain sorghum hybrids represents an innovative response to critical challenges in sorghum cultivation. Developed in the context of a growing need for high-quality, abundant sorghum production, this exceptional variety delivers significantly increased yields compared to traditional methods. Its advantage lies not only in its capacity to produce more but also in its adaptability to changing environmental conditions, including enhanced resistance to water stress. This technology redefines the standard for sorghum cultivation by providing a versatile and reliable solution for farmers, ensuring plentiful and quality harvests across diverse climatic contexts.
Yellow-fleshed cassava rich in vitamin A Low level of vitamin and mineral in the common varieties of cassava grown by farmers leads to widespread malnutrition and hidden hunger, and numerable desease in the African continent. Therefore, it comes to raise the provitamin A in the conventional cassava throught breeding technics by parking the Golden cassava’s roots with beta-carotenoid for the color caracteristic, these to be convert after ingestion into vitamin A by enzymes as per the need in the body.
Nutrition-boosting, income-enhancing maize. Provitamin A Enriched Golden Maize Varieties are biofortified maize crops with significantly higher levels of provitamin A, addressing widespread malnutrition in Sub-Saharan Africa. They play a crucial role in reducing vitamin A deficiency, a leading cause of preventable blindness and weakened immunity.
Resilient and Nutrient-Rich OFSP for Better Agriculture The technology of "Drought and Virus Tolerant Orange-Fleshed Sweet Potato" holds paramount significance in Sub-Saharan Africa. It addresses critical agricultural challenges by providing cultivars of orange-fleshed sweet potato (OFSP) tailored to combat drought, heat stress, and viral infections. These specially bred OFSP varieties offer rapid harvest maturity, completing their growth cycle within 90 days, which is particularly beneficial in regions with uncertain rainfall patterns towards the end of the growing season. Furthermore, the introduction of OFSP varieties resistant to a range of viruses and destructive insects has significantly bolstered crop resilience. This technology not only enhances food security but also contributes to economic sustainability for communities in the region.
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.
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.
Aflatoxin-safe fields and crops for safer food in Africa Aflasafe® technology plays a pivotal role in addressing the critical issue of aflatoxin contamination in Africa. Aflatoxins, produced by the fungus Aspergillus flavus, are highly toxic and cancer-causing poisons that infest staple crops, animal feeds, and processed foods, posing a severe health threat. Aflasafe®, a biocontrol solution developed in Africa, offers a cost-effective and natural alternative to chemical interventions. By reducing aflatoxin levels in food, Aflasafe® not only safeguards human and livestock health but also mitigates economic impacts, making food safer for consumption and trade, improving overall health, and preserving farm animal well-being. This innovative technology stands as a key strategy to combat the silent aflatoxin pandemic, which is responsible for 30% of liver cancer cases in Africa and weakens individuals against other diseases while also stunting children's growth.