Cultivate superior banana varieties for abundant yields and enhanced food security.
These disease-resistant hybrid banana varieties are characterized by their robust and compact bunches, bearing larger and heavier fruits compared to conventional cultivars. Among these hybrids, TARIBAN2 stands out for its exceptional sturdiness, effectively reducing vulnerability to wind damage. Moreover, these cultivars produce distinct sword-like leaves and have fewer suckers, except TARIBAN3. This technology provides a reliable and resilient alternative to traditional varieties, ensuring higher yields and increased food security. Additionally, these varieties exhibit notable resilience to black leaf streak, nematodes, and bunchy top disease, further bolstering their capacity to deliver consistent and dependable yields.
This technology is TAAT1 validated.
per hectare for planting material.
Yield increased
per hectare for inputs
per hectare for labor
Open source / open access
Low Banana Yields: Traditional varieties yield only 5-30 tons per hectare, primarily due to susceptibility to pests and diseases.
Susceptibility to Pests and Diseases: Vulnerability to black leaf streak, nematodes, and bunchy top disease leads to lower yields in conventional varieties.
Declining Soil Fertility: Inadequate soil fertility hampers banana production, posing a challenge for traditional varieties.
Risk of Plant Die-Off in Plantations: Factors such as pests, diseases, and environmental stressors increase the likelihood of plant die-off, jeopardizing food security.
Enhanced Yield Potential: Disease-resistant hybrids can yield up to 70 tons per hectare, significantly increasing productivity compared to traditional varieties.
Heightened Disease Resistance: These varieties are specifically bred to resist black leaf streaks, nematodes, and bunchy top disease, ensuring a more robust and reliable yield.
Improved Soil Resilience: Disease-resistant hybrids exhibit greater resilience in nutrient-depleted soils, reducing the impact of declining soil fertility on banana production.
Strengthened Plant Health and Survival: By being resistant to pests and diseases, the disease-resistant hybrids significantly reduce the risk of plant die-off in banana plantations, thereby enhancing food security.
This technology may be interesting for seed multipliers and users (farmers, aggregators).
Seed multiplier
The production of NARITA banana technology presents a unique opportunity to enhance agricultural productivity, improve food security.
To efficiently multiply NARITA banana seeds, it is essential to
Procure registered seed, depending on your role in the seed development process.
Obtain a certificate for the multiplication of NARITA varieties, as each country in Sub-Saharan Africa has specific licensing requirements for seed multipliers to produce and distribute certified seeds within local markets.
Your potential customers include banana farmers, aggregators, as well as development projects, government agencies, and NGOs.
Users
Utilizing NARITA technology offers a comprehensive solution to manage pests and diseases, enhance crop yield and quality, and improve the health and well-being of diverse farming communities.
As key partners, you will require multipliers of NARITA banana varieties to facilitate their widespread adoption.
Since NARITA technology is available in various countries including Cameroon, Democratic Republic of the Congo, Burundi, Ethiopia, Kenya, Rwanda, South Sudan, Tanzania, Uganda, Malawi, it's crucial to consider delivery expenses and potential import duties.
The cost structure considering a technology cost ranging from 290 to 1,000 USD per hectare and recommended inputs of animal manure and synthetic fertilizer for increasing yield and plant health cost 670 to 3,300 USD per hectare. Labour costs to plant, manage and harvest plantations amount between 700 and 1,300 USD per hectare. Additionally, factor in delivery costs to the farm and any relevant import clearance and duties.
To optimize the performance of NARITA banana varieties, associate it with In-Vitro Tissue Culture Propagation Propagation of Disease-Cleaned Suckers technologies.
You will need to estimate the profit potential realized through the utilization of this technology.
Adults 18 and over: Positive high
The poor: Positive high
Under 18: Positive medium
Women: Positive high
Climate adaptability: Highly adaptable
Farmer climate change readiness: Significant improvement
Biodiversity: No impact on biodiversity
Carbon footprint: Same amount of carbon released
Environmental health: Greatly improves environmental health
Soil quality: Does not affect soil health and fertility
Water use: Same amount of water used
Country | Testing ongoing | Tested | Adopted |
---|---|---|---|
Burundi | –No ongoing testing | –Not tested | Adopted |
Cameroon | –No ongoing testing | –Not tested | Adopted |
Democratic Republic of the Congo | –No ongoing testing | –Not tested | Adopted |
Ethiopia | –No ongoing testing | –Not tested | Adopted |
Malawi | –No ongoing testing | –Not tested | Adopted |
Rwanda | –No ongoing testing | –Not tested | Adopted |
South Sudan | –No ongoing testing | –Not tested | Adopted |
Tanzania | –No ongoing testing | –Not tested | Adopted |
Uganda | –No ongoing testing | –Not tested | Adopted |
This technology can be used in the colored agro-ecological zones. Any zones shown in white are not suitable for this technology.
AEZ | Subtropic - warm | Subtropic - cool | Tropic - warm | Tropic - cool |
---|---|---|---|---|
Arid | ||||
Semiarid | ||||
Subhumid | ||||
Humid |
Source: HarvestChoice/IFPRI 2009
The United Nations Sustainable Development Goals that are applicable to this technology.
Last updated on 22 May 2024