VITA - Volunteers in Technical Assistance
This is a series published in the 1980s by Volunteers in Technical Assistance to provide an introduction to specific state-of-the-art technologies of interest to people in developing countries. The papers are intended to be used as guidelines to help people choose technologies that are suitable to their situations. They are not intended to provide construction or implementation details. People are urged to contact a knowledgeable organization for further information and technical assistance if they find that a particular technology seems to meet their needs.
The papers in the series were written, reviewed, and illustrated almost entirely by VITA Volunteer technical experts on a purely voluntary basis. Some 500 volunteers were involved in the production of the first 100 titles issued, contributing approximately 5,000 hours of their time. VITA staff included Leslie Gottschalk and Maria Giannuzzi as editors, Julie Berman handling typesetting and layout, and Margaret Crouch as project manager.
Permission has been granted by the current holder of Intellectual Property Rights for VITA content, Relief International, to publish the VITA library on ECHOcommunity.
Please note that re-release of these documents is a work in progress where we are recovering images and tables from archival documents.
127 Issues in this Publication (Showing issues 106 - 0) Previous
Poultry Raising
- Also available in:
- Español (es)
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- Português (pt)
- Deutsche (de)
- Français (fr)
The brooder is heated by a regular electric light bulb, placed under the brooder floor. Depending on the temperature rise required, the wattage of the light bulb will have to be chosen by experimentation. The metal floor and roof prevent predators such as rats from entering the brooder. If electric power is not available, an excavation can be made for a lantern. Be sure the lantern has adequate ventilation.
Raising Chickens And Ducks - 1990-01-01
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- Français (fr)
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- Español (es)
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- Deutsche (de)
Because chickens and ducks can utilize surplus grain, table scraps, garden trimmings, and by-products, they can provide a valuable food reserve. Some farming communities produce more grain than their people need. Of course the excess could be sold, but if not, it can be fed to poultry. Then, if there is a decreased production of grain in a certain year, the poultry flock can be reduced instead of decreasing the grain that is supplied to the people. Many farmer co-ops could maintain this kind of balance between grain production and poultry husbandry.
Modern science has greatly increased our knowledge of poultry production. New breeds have been developed, our understanding of nutrition has grown, we have learned how to better house poultry, and new medicines have come on the market that protect flocks against disease. This manual incorporates many modern techniques of poultry science with practical experience gained in Africa, Asia, the Caribbean, and the United States of America.
This publication does not address itself to commercial projects (flocks containing hundreds and thousands of birds). Operations of this type require a highly efficient level of production and access to professional technical help to provide a reasonable income.
Understanding Poultry Meat And Egg Production - 1984-01-01
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- Français (fr)
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Since ancient times, chickens, ducks, and geese have served farming communities by gleaning the fields of grain that otherwise would be lost; picking up grain that is dropped by the wayside in threshing, drying, and transportation; making productive use of the scraps from the family table; and, supplementing those feed items by foraging for grass, weed seeds, and insects. With such a diet these animals are able to produce eggs and meat, which provide protein of high quality plus several essential vitamins and mineral elements. Eggs and meat are ideal supplements for the cereal grains, tubers, and roots that provide much of the energy in many human diets.
Besides being recoverers of waste grain and users of scraps and by-products, poultry can function to provide a food reserve. Any farming community that can do so would like to produce more grain than the people need. Maybe the excess can be sold; but, if not, it can be fed to poultry. Then if there is decreased production of grain in a certain year, the poultry flock can be decreased instead of decreasing the grain that is supplied to the people.
Small flocks of poultry--from a few birds to a few hundred--were the rule all around the world, until the 20th Century. In the early 1900s, flocks numbering in the thousands began to appear in North America and Europe. In the 1920s and 1930s, geneticists, nutritionists, physiologists, and disease specialists developed improved breeds and strains of chicken and improved methods of feeding and managing them and protecting them against disease. The rapid introduction of new technologies so increased the efficiency of producing eggs and poultry meat that costs to consumers went down at a time when prices for most other consumer goods were climbing.
This paper addresses the following important questions to help you decide whether poultry raising is for you:
* How can poultry flock owners in developing countries take advantage of modern technology?
* Is it better to use native birds or import improved modern strains?
* Is it possible with local feedstuffs to approximate the composition and the efficiency of feeds based on corn (maize) and soybean meal?
* Can vaccines, coccidiostats, antibiotics, vitamins, and mineral supplements be imported economically? Can any of them be made locally?
* Is it possible to make feeding and watering equipment, cages, and nests locally?
Understanding Dairy Production In Developing Countries - 1985-01-01
- Also available in:
- Deutsche (de)
- Português (pt)
- Français (fr)
- Español (es)
The dairy industries in many industrialized countries have developed elaborate facilities in an effort to: (1) save labor, which is plentiful and inexpensive in most developing countries; (2) provide protection for both the cattle and their caretakers from cold in winter; and (3) provide sufficient sanitation and refrigeration to ensure the keeping qualities of the product, for shipping, long shelf life, and manufacturing procedures. It should be kept in mind that very elaborate facilities are not always necessary. In tropical countries, for example, cattle do not need shelter from cold winters, and areas where milk is consumed quickly and locally have different storage requirements. Relatively high levels of milk production can be achieved without elaborate facilities, and the dairy operation can be upgraded gradually as economic conditions permit.
Improving dairy production begins with careful attention to breeding in order to improve native cattle, to feeding practices so as to assure good diet year-round, and to the harvesting and preservation of forage.
Understanding Dairy Goat Production - 1990-01-01
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- Deutsche (de)
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- Italian (it)
- Español (es)
- Português (pt)
Goats are among the smallest domesticated ruminants and have served mankind longer than cattle or sheep. They thrive in arid, semitropical, or mountainous countries. More than 460 million goats in the world produce over 4.5 million tons of milk and 1.2 million tons of meat annually, besides mohair, cashmere, leather, and dung for fuel and fertilizer. Goats are friendly animals; with proper attention they maintain good health and can be managed easily even by children.
Understanding Sheep Production - 1990-01-01
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- Español (es)
- Português (pt)
- Français (fr)
- Deutsche (de)
- Italian (it)
The sheep was one of the earliest animal species to be domesticated, with evidence that they were kept and not hunted as early as 10,700 years ago in the gorge of the Greater Zab River in Northern Iraq. Wool has been found in the remains of 20,000-year old villages in Switzerland (Blakely and Bade, 1986). Sheep are in fact well-suited for use by people because they can digest fibrous portions of plants. Bacteria and fungi in the gut of sheep allow them to use feed resources that are of little or no direct value as human food sources. In this way sheep can be raised on marginal lands or make use of crop by-products while producing meat, milk, wool, hides, and manure.
Many breeds of sheep, particularly those that are native to the desert regions of the world, use water very efficiently and can go for several days without drinking. They can graze far from watering holes and place less stress upon soil and vegetation near water. In arid regions or those experiencing desertification, raising sheep would help alleviate erosion and health problems common to areas where animal and human density is too high to be supported by the local resources.
Drawing on the genetic resources of the world's many sheep breeds and using cross-breeding to achieve a desired combination of traits can bring great benefits to people. Whether on small plots in wet tropics or on ranges of many hectares in drier, more varied climates, sheep can be used to alleviate food crises or provide products for trade or barter.