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https://e-catalogs.taat-africa.org/gov/technologies/low-cost-cage-and-free-range-containment
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Low-Cost Cage and Free-Range Containment

Safeguarding Chickens and reducing Costs

This technology is a special kind of chicken house that can be moved around. During the day, the chickens get to go outside and find their own food like bugs and plants. When it's time to sleep, they go back into the house where it's safe. What's great about this house is that it's not expensive to build, and it's easy to move. This is really helpful for small farmers who may not have a lot of money for fancy chicken houses. It also makes sure the chickens are happy and well looked after. The house is made from simple materials like wood, metal sheets for the roof, and mesh to keep the chickens safe. It's important to keep the house clean and fresh for the chickens' health. The design also makes sure the air inside is good for the chickens. Placing the house on flat ground and protecting it from predators is also key. All these things together make it a really helpful and practical solution for chicken farming.

2

This technology is TAAT1 validated.

8•9

Scaling readiness: idea maturity 8/9; level of use 9/9

Adults 18 and over: Positive high

The poor: Positive high

Under 18: Positive low

Women: Positive high

Climate adaptability: Highly adaptable

Farmer climate change readiness: Significant improvement

Environmental health: Moderately improves environmental health

Soil quality: Improves soil health and fertility

Water use: Same amount of water used

Problem

  • The financial constraints faced by many small-scale farmers often prevent them from investing in costly chicken houses, impeding their ability to provide adequate shelter for their poultry.
  • Due to limited resources and space, chickens are sometimes confined to cramped and uncomfortable living quarters, which can lead to stress and reduced productivity among the flock.
  • Without proper protection and shelter, chickens are susceptible to attacks from predators and adverse weather conditions, which pose significant risks to their health and well-being.
  • Farmers are increasingly striving to meet the growing consumer demand for free-range and organic chicken products, necessitating housing solutions that facilitate outdoor access and adhere to organic farming practices.
  • Keeping chickens in the same location for extended periods can result in the buildup of pests and diseases, posing a threat to the overall health and hygiene of the flock. Rotating chicken habitats can help mitigate these risks by preventing the concentration of pathogens and pests in one area.

Solution

  • Movable pens provide affordable housing solutions for smallholder farmers, enabling them to engage in commercial poultry production.
  • The technology accommodates consumer demand for organically produced foods and free-range poultry by allowing outdoor access for birds.
  • Mobility of pens prevents pest and disease buildup, reduces feed costs, and naturally distributes manure across fields, enhancing overall farm management practices.
  • Free-range conditions promote healthier chickens with stronger immune systems, reducing the need for antibiotics and supporting organic chicken production.
  • The technology is accessible and practiced commercially in various countries, particularly in peri-urban areas, facilitating integrated poultry-cropping systems.
  • Affordable and readily available materials make it feasible for small-scale farmers to implement movable poultry pens.
  • Proper ventilation, sanitation, and security features in housing design ensure optimal conditions for bird health and productivity.
  • The technology minimizes environmental impact through efficient waste management, proper ventilation, and strategic placement of poultry houses.

Key points to design your project

The technology offers cost-effective solutions for poultry housing, empowering smallholder farmers to engage in commercial production and contribute to poverty alleviation. It enhances food security through the production of organically raised poultry, fosters economic growth by generating employment, and advocates for sustainable farming practices, thus reducing environmental impact and promoting organic production.

 

To integrate this technology into your project, follow these steps and prerequisites:

  • Identify and secure suitable land for free-range poultry production, ensuring it has appropriate vegetation and is not vulnerable to crop damage from foraging birds.
  • Conduct a market assessment to gauge demand for free-range chickens and assess potential profitability.
  • Allocate resources for comprehensive training and ongoing support during project implementation.
  • Collaborate with agricultural development institutions to facilitate widespread adoption of the technology.
  • Explore opportunities to combine this technology with complementary solutions, such as Biosecurity for Disease Prevention, to enhance overall efficiency.

Cost: $$$ 350 USD

Initial cost to raise 150 to 200 chickens

ROI: $$$ 50 %

Benefit from selling birds

2.0—2.5 Kg

Weight of mature meat chickens in 6 weeks

20

floor space for 100 birds.

IP

Open source / open access

Countries with a green colour
Tested & adopted
Countries with a bright green colour
Adopted
Countries with a yellow colour
Tested
Countries with a blue colour
Testing ongoing
Egypt Equatorial Guinea Ethiopia Algeria Angola Benin Botswana Burundi Burkina Faso Democratic Republic of the Congo Djibouti Côte d’Ivoire Eritrea Gabon Gambia Ghana Guinea Guinea-Bissau Cameroon Kenya Libya Liberia Madagascar Mali Malawi Morocco Mauritania Mozambique Namibia Niger Nigeria Republic of the Congo Rwanda Zambia Senegal Sierra Leone Zimbabwe Somalia South Sudan Sudan South Africa Eswatini Tanzania Togo Tunisia Chad Uganda Western Sahara Central African Republic Lesotho
Countries where the technology is being tested or has been tested and adopted
Country Testing ongoing Tested Adopted
Benin No ongoing testing Not tested Adopted
Botswana No ongoing testing Not tested Adopted
Burundi No ongoing testing Not tested Adopted
Central African Republic No ongoing testing Not tested Adopted
Côte d’Ivoire No ongoing testing Not tested Adopted
Democratic Republic of the Congo No ongoing testing Not tested Adopted
Ethiopia No ongoing testing Not tested Adopted
Gabon No ongoing testing Not tested Adopted
Ghana No ongoing testing Not tested Adopted
Guinea No ongoing testing Not tested Adopted
Kenya No ongoing testing Not tested Adopted
Madagascar No ongoing testing Not tested Adopted
Malawi No ongoing testing Not tested Adopted
Mozambique No ongoing testing Not tested Adopted
Niger No ongoing testing Not tested Adopted
Nigeria No ongoing testing Not tested Adopted
Rwanda No ongoing testing Not tested Adopted
Senegal No ongoing testing Not tested Adopted
Sierra Leone No ongoing testing Not tested Adopted
Somalia 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
Zambia No ongoing testing Not tested Adopted
Zimbabwe 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.

Agro-ecological zones where this technology can be used
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.

Sustainable Development Goal 2: zero hunger
Goal 2: zero hunger
Sustainable Development Goal 3: good health and well-being
Goal 3: good health and well-being
Sustainable Development Goal 8: decent work and economic growth
Goal 8: decent work and economic growth
Sustainable Development Goal 13: climate action
Goal 13: climate action
Sustainable Development Goal 15: life on land
Goal 15: life on land
Sustainable Development Goal 17: partnerships for the goals
Goal 17: partnerships for the goals

  1. The technology is like a special house for chickens that can be moved around.
  2. During the day, the chickens can go outside to eat insects and plants.
  3. At night, they sleep inside the house where they're safe.
  4. This special house is not expensive to build and is easy to move.
  5. It's perfect for small farmers who can't afford big, fancy chicken houses.
  6. It helps make sure the chickens are happy and well taken care of.
  7. The house is made of simple materials like wood, roofing sheets, and metal mesh.
  8. It's important to clean and disinfect the house to keep the chickens healthy.
  9. Good ventilation helps the air inside the house stay fresh and clean.
  10. The house should be placed on flat ground and protected from predators.
  11. It's best to face the house east-west to avoid too much sun inside.
  12. The floor of the house lets droppings fall through to the ground, which helps keep it clean.

Last updated on 22 May 2024