28 results
Unleashing the Power of High-Yielding Orange Maize Across Africa! The new maize variety, born out of agricultural innovation, has been developed to address specific challenges faced in maize cultivation in Africa. Engineered with features such as early maturity, increased resistance to biotic and abiotic stresses, and adaptation to the African climate, this variety aims to enhance maize yields and production sustainability. By incorporating modern farming practices, it provides a promising solution to improve food security in the region and promote agriculture resilient to environmental changes.
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.
Unleashing Prosperity with Resilient Rice - Medium Cycle, Maximum Yield, Unmatched Quality The Rice Swarna 2 technology emerges as an innovative solution to critical challenges in rice cultivation. Developed in response to the increasing demand for high-yield, high-quality rice, this revolutionary variety addresses traditional issues such as low yields, insufficient milling rates, and susceptibility to diseases like Bacterial Leaf Blight (BLB) and blast disease. With yields reaching up to 10 tons per hectare, a milling rate exceeding 70%, and enhanced disease resistance, Rice Swarna 2 signifies a significant breakthrough. It provides farmers with a cost-effective and sustainable solution to meet the growing demand for superior-quality rice.
High yielding orange maize hybrid, medium maturity with high field tolerance to drought The Orange maize hybrid technology is an improved variety of maize offering high yields of up to 10 tons per hectare. It stands out for its tolerance to foliar diseases, especially blight, and its drought resistance. This hybrid variety has the potential for double yields compared to an Open-Pollinated Variety (OPV), providing farmers with a significantly higher return on investment. It addresses challenges such as low yields, the dual-purpose option for grain and fodder, and moisture stress.
Rust-Resistant Wheat for a Flourishing Future The development of "Yellow Rust and Stem Rust Resistant wheat" technology is a critical response to the devastating impact of these fungal diseases on wheat production in Sub-Saharan Africa. These diseases have historically caused severe yield losses and the rapid spread of virulent strains, such as the Ug99 stem rust, has further exacerbated the problem. The introduction of rust-resistant wheat varieties, through collaborative efforts like those of ICARDA and national partners, plays a vital role in preventing disease outbreaks, safeguarding wheat crops, and ultimately enhancing food security in key wheat-producing regions.
Growing Prosperity: Climbing Beans for Food Security & Income Growth Climbing Bean with High Yield and N Fixation Technology improved bean varieties in Eastern and Southern Africa, by increasing yields compared to bush types beans, contributing to food security and higher incomes for farmers. These improved climbing bean varieties are resistant to common pests and diseases, reducing the need for chemical interventions. They can withstand various environmental stresses, enhancing their adaptability to different conditions. The technology promotes higher biological nitrogen fixation in climbing beans, reducing the cost for farmers and enabling cultivation in nitrogen-depleted soils. The adoption of these climbing bean varieties by small-scale farmers in Africa not only addresses hunger and malnutrition but also significantly improves their livelihoods.
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.
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.
Disease-Resistant Cassava Cuttings for Higher Yields Disease resistant cassava varieties plays a critical role in overcoming the challenges faced by cassava farmers in Sub-Saharan Africa. Cassava, a vital food crop in the region, is frequently plagued by devastating viral diseases, such as cassava mosaic disease and cassava brown streak disease, which harm the leaves, reduce photosynthesis, and result in significant yield losses, sometimes leading to complete crop failure. In essence, disease resistant cassava varieties are instrumental in safeguarding cassava production, ensuring food security, and improving the livelihoods of farmers in Sub-Saharan Africa. These varieties represent a sustainable and efficient approach to combat viral infections that threaten cassava crops, making them a vital technology for the region.
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.
NERICA: Higher Yields, Resilience, and Profitability for African Farmers. NERICA varieties mark a pivotal shift in African agriculture. Bred by crossing native landraces with Asian rice, they deliver higher yields and robust resistance to pests and diseases compared to conventional varieties. Their innate resilience to nutrient and water limitations makes them a strategic asset for enhancing farmers' productivity and profitability while reducing reliance on staple food imports. With lowland NERICA tailored for valleys and floodplains with sporadic water stress, and upland NERICA ideal for hilltops and elevated plateaus facing more frequent challenges, this technology is reshaping farming landscapes across Sub-Saharan Africa. It empowers farmers with a reliable, high-yielding resource that not only boosts food security but also drives economic stability in the region.
Boost maize yields while eliminating the issue of Striga infestation The technology of Imazapyr resistant maize for Striga management (IR maize) is of paramount significance in addressing the persistent challenge of Striga weed infestations in maize crops, particularly in Sub-Saharan Africa. Commercial seed manufacturers are introducing improved maize varieties that have been genetically modified to resist imazapyr, an herbicide effective in safeguarding crops from parasitic Striga weeds. This technology is a game-changer for regions where Striga significantly impacts maize production.
Sustain Your Health with Purple Potato The purple-fleshed sweet potatoes (PFSP) technology is an improved variety newly introduce into African farming systems and markets. These PFSP varieties have significantly higher antioxidant activity compared to white or yellow sweet potatoes. They play a crucial role in improving dietary balance, addressing vitamin deficiencies common in underserved communities, and promoting overall health across different age groups, from early childhood development to supporting the health and vitality of adolescents and the elderly.
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.
Orange Sweetness, Nutrient Richness, and Farmer's Success - Embrace OFSP! Improved orange-fleshed sweet potato (OFSP) varieties, developed for African farming, boast increased beta-carotene, virus and drought resistance, and high yields. OFSP enhances nutritional security, particularly addressing vitamin A deficiency. It is a versatile staple with applications in various products and animal feed.
Better Plantain Varieties for Thriving Farmers Plantain is a crucial staple in Central and West Africa, ranking third after yam and cassava. However, its production faces significant challenges, particularly from black leaf streak disease, weevils, and nematodes. These factors lead to substantial yield losses. Population growth further strains resources, affecting soil fertility. The development of disease-resistant hybrids is a pivotal response to these challenges. These improved plantain varieties not only offer heightened resistance but also focus on high productivity, drought resilience, and preferred cooking traits.
Cultivate superior banana varieties for abundant yields and enhanced food security. Traditional banana varieties in the Great Lakes region, particularly in Uganda, have experienced stagnated production with yields as low as 5-30 tons per hectare annually, far below their potential of 70 tons. This decline is primarily attributed to the susceptibility of East African Highland bananas to various pests and diseases. Compounding the issue are challenges posed by declining soil fertility and drought. The result is food shortages, putting vulnerable communities at risk of hunger. The introduction of disease-resistant hybrid banana varieties represents a pivotal solution. These hybrids exhibit higher resistance to black leaf streaks, nematodes, and bunchy top disease, offering the promise of enhanced productivity and food security.
High-Performance Breeding Chicken Breed The technology of "Dual-Purpose Chicken for Small-Scale Producers" addresses the limitations of indigenous chickens by introducing specialized breeds capable of both high egg production and meat yield. These improved breeds are cost-effective, disease-resistant, heat-tolerant, and efficient in converting feed. The distribution process involves companies establishing parent stock and hatchery operations, followed by the transportation of day-old chicks (DOCs) to brooder units. These specialized brooder units focus on essential care, including brooding, feeding, and proper vaccination during the initial 30-40 days of the chicks' lives. This technology allows for the wide dissemination of improved dual-purpose chicken breeds to a large number of smallholder farmers. The approach significantly enhances the survival rates of chickens by providing them with a strong start. An excellent example of this technology in action is the African Poultry Multiplication Initiative (APMI), which successfully initiated numerous brooder units in Tanzania and Nigeria. Through this initiative, millions of day-old chicks were delivered to hundreds of thousands of smallholder farmers, significantly impacting poultry farming in these regions.
Harvest More, Feed Better, Farm Smarter The technology of "Dual-purpose Varieties for Crop and Livestock Integration" holds paramount importance, particularly in African drylands. The productivity of natural pastures and rangelands in these regions is diminishing due to overgrazing, soil degradation, and the impact of climate change. In the face of increasing livestock numbers, there is a growing need for crop residues that can be utilized as animal feeds. Traditional millet and sorghum varieties have proven inadequate as they lack the desired grain-to-stover ratio for both human and animal nutrition. Additionally, they possess higher lignin content, which reduces digestibility, and may contain tannin, leading to a bitter taste.
Strong Crops, Healthy People The technology "Millet and Sorghum Varieties for Better Nutrition and Stress Resistance" addresses the pressing issue of low millet and sorghum yields in Africa, resulting in food insecurity and malnutrition. It offers new, high-yielding, bio-fortified varieties that can withstand drought, heat, and pests. These innovations not only enhance food production but also improve taste, cooking qualities, and potential for value addition and marketing, with applications spanning from food and feed to brewing and biofuels. This technology is crucial for sustainable agricultural development and climate resilience in the region.
Enhance farm's resilience with DTMA and WEMA maize varieties, ensuring consistent yields even in unpredictable weather. DTMA and WEMA are specially bred maize varieties designed to thrive in regions prone to water scarcity. They play a crucial role in enabling farmers to navigate unfavorable rainfall conditions, significantly enhancing productivity and reducing the risk of crop failure.
Fueling Health with Iron-Rich Beans In Sub-Saharan Africa, poor nutrition, particularly iron and zinc deficiencies, poses significant health challenges. Iron deficiency leads to anemia, developmental issues, and adverse pregnancy outcomes, while zinc deficiency weakens the immune system. The consumption of biofortified high-iron bean varieties enhances micronutrient intake, leading to improved health. Biofortification, achieved through conventional breeding or biotechnological methods, plays a vital role in increasing nutritional value. The recent introduction of biofortified high-iron bean (HIB) varieties represents a promising technology to enhance nutritional security and overall human health.
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.
Fast growing hybrid catfish for Africa The technology behind "Fast Growing and Hybrid African Catfish" is crucial for African aquaculture and regional food security. African catfish are well-suited for freshwater farming due to their rapid growth, resilience to environmental conditions, and ability to thrive on low-cost agricultural byproducts. Their hardiness against common pests and tolerance for low water quality make them an attractive choice for aquaculture. However, the scarcity of quality fingerlings from improved catfish breeds is a significant obstacle faced by local hatcheries. This scarcity hampers the efforts of fish farmers to increase yields, meet market demands, and improve returns. As a result, many farmers resort to collecting fish eggs from the wild or purchasing poor quality fingerlings, hindering the potential for increased production and economic benefits. Improving the breeding and availability of quality fingerlings of fast-growing and hybrid African catfish is essential to enhance aquaculture productivity, meet local market demands, and ensure sustainable food production in Africa.
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