Applied Zoology -By Dr. Vidhin Kamble
Saturday, August 27, 2022
डिजिटल फुट प्रिंट - कधीच मिटवता न येणारा इतिहास*
Friday, August 26, 2022
माजी आमदार, दलित मित्र नामदेवराव व्हटकर यांच्या विषयी
Sunday, August 21, 2022
Emu Farming
Emu Farm
Emu the second largest flightless bird under the group ratites. Emu is scientifically classified as Dromius Noveahollandiae along with other members of the group ostrich, kiwi and rhea, other flightless birds. Emu is native to Australia. Aborigines in Australia utilized these birds for their basic needs like food, clothing and for
treatment . Presently, Emu Framing is spread all over the world with significant population in India, U.S.A, China, Australia including Asian countries. Emu is becoming popular for having 98% fat free red meat and other utilities obtained by products namely; Emu oil, skin, feathers and ornamental eggs and toes.
Emu farming in India is in developing stage.
In India Since 2000, Department of Poultry Science, Veterinary College, Venkateshwara University, Andhra Pradesh is doing pioneer work in the areas of research on Emu. An NRI of West Godavari district in Andhra Pradesh started Emu farming for the first time during 1998. Later breeding flocks spread over entire country for commercial purpose. Presently, emu farming is being carried out in large scale in States of Andhra Pradesh, Tamil Nadu, Maharashtra, Karnataka and parts of Kerala. Central Poultry Development organization & Training Institute, Govt. of India, established an organized Emu unit during 2007, with a foundation stock of 30 pair breeding stock for expansion and to act as National Centre for Emu. Emu farming in India presently concentrated in Southern States with usual importance given for breeding. Farmer buys 10 to 15 pairs from a big breeder and has an option of becoming a self sustained breeder to produce chicks for sale or an integrated farmer to sell hatching eggs back to the integrator. The products sale in India is yet to take shape due to lack of awareness and non-availability of sufficient emu population. The future of this industry will be diversified into emu farming for fattening and breeding. Emus raised for fattening will be fed with different rations so that they will gain body weight at the earliest and yield all the products suitably. The preferred age for fattening is less than 24 months and ideal is 12 months. Present estimate of Emu population in India is above two lakhs. The biggest Farm is in Andhra Pradesh with 6000 Emus at one place. Vijayawada,West Godavari, Hyderabad, Chittoor and Nellore, in AP, Coimbatore, Namakkal, Erode and Hosur in Tamil Nadu, Gokak, in Karnataka, Pune and Nasik in Maharashtra are production belts for Emus.
Physical features of Emu:
Emu chicks when hatch out have body stripes similar to squirrel later as they grow after three months they lose the stripes to turn into brownish black feathers. Adult emu will be a large bird up to 6 ft ht. with long neck and small naked head. Adult usually weighs 45 to 60 kgs. Legs are long and covered by scaly skin and it is tri ductile ( three toes in the leg ) , entire body covered by long feathers except part of the neck.
Sex differentiation:
Phenotypically emus look similar in both sexes. However, sexing is done on day old based on feather sexing, vent sexing by identify male organ & sound differentiation on maturity. Identification of emus is done usually by painting different colors on the legs, leg strips and micro chipping. Male emu after maturity makes grunting sound and female makes drumming sound.
Breeding of Emus:
Emus attain sexual maturity by 18 to 24 months. Breeding occurs during winter season of the geographical areas (October to February in India). They are monogamous indicating one male for one female. In nature, the female mates with the male during breeding season and gives a clutch of eggs. Later, male sits for brooding on these eggs for a period of 52 days without food and water. However, the female continues to breed with new partners during the whole breeding season. The chicks hatched out follow the male emu rather than the female. In commercial farming emus are paired in separate enclosures after maturity depending on the compatibility of the pair. Emu generally gives eggs during evening between 5.30 to 7.00 p.m. Each adult emu after three years can give an average egg production of 30 eggs during breeding season between October to February.
Hatching of Emu eggs:
Emu eggs are emerald green in color weighing about 600 to 800 grams. The incubation period in emu is about 52 days. Eggs are collected on regular basis and are stored in a cooler temperature of 60oF maximum up to one week. Later they are set in incubator machines which are specially designed to hold emu eggs with a dry bulb temperature of about 96o to 97o F and wet bulb temperature of about 78o to 80o F (about 43% relative humidity) up to 48th day with regular turning mechanism every one hour. From 49th day the eggs are shifted to hatchers, wherein till 52nd day they are kept. Emu chicks hatch out on 52nd day naturally, some times assisted hatch is also carried out manually by helping the chick to come out by opening the shell at the head and toe positions. The normal hatchability is about 80%.
Emu chick Management:
Emu chicks weigh about 370 to 450 grams ( about 67% of the egg weight). For the first 48 to 72 hours, emu chicks are restricted to Hatcher itself for absorption of egg yolk and proper drying . The brooding shed would be prepared well in advance with thorough cleaning and disinfection and flooring should be covered with gunny bags to prevent slipping of legs of young chicks. Emu chicks have long legs and are very active, slippery flooring will make emu chicks to have hip dislocation resulting in irreparable damage. Arrange a set of brooder for about 25 to 40 chicks giving four sq. ft. per chick for first three weeks. Provide brooding temperature of 90o F for the first ten days and 85o F till three to four weeks. Provide feed and water with a brooder guard of 2.5 ft height. Feed starter mash for first 8 weeks. Provide sufficient run space for the chicks to have healthy life. Hence, floor space of 40ft x 30 ft is required for about 40 chicks with outdoor space.
Grower Management (9 to 42 weeks of age):
As emu chicks grow they require the bigger size of waterers and feeders and increased floor space for run. Feed the birds grower mash till 42 weeks of age. 10% Greens ( carrot, papaya, cucumber) can be offered, deworm the birds once with broad-spectrum anthelmintic /ivermectin and vaccinate with R2b at 8th week and repeat at 40th week against Ranikhet disease. Provide 40ft x100 ft space for 40 birds.
Breeder Management:
Emu birds are seasonal layers and monogamous, they require different nutritional requirements which are varied during breeding season. A pre breeder ration with high protein and micro nutrients is given to prepare for breeding. During breeding the feed consumption will be reduced to fifty percent. After breeding a maintenance ration is given with low protein and low energy diet.
Housing and Feeding of Adult Emus:
Emus are reared in open paddocks which will have chain link fencing of 2x2 or 3x3 enclosure with 2 ft. concrete wall construction on this chain link mesh of 6 ft. ht. is erected. Night shelter is optional with usual asbestos sheet roofing of 6 to 8 ft. Feeding is given in feed troughs which are usually hung on the fence and water is given in specially designed water tank or troughs with good drainage. Feeding is done twice daily and water to be provided adlib.
Products of Emus:
1. Emu meat : It is 98% fat free red meat, which is similar in look to other red meats Viz., beef, mutton, deer meat etc., Emu meat is rich in iron, Vit. C. The tenderness and texture of Emu meat enables to be fit for preparations which are lightly grilled and pan fried, since emu meat is low in fat, it looses moisture quickly and is best under moist heat cooking.
2. Emu Oil: Emu oil is semi solid white mass, which is generally located all along back of bird, but when it is processed and refined it is a clear liquid. Emu oil fatty acid composition is almost similar to human skin, which makes it to have high permeability when applied on to human skin. This character of emu oil is utilized for treatment of various conditions namely arthritis, skin treatment, burn injuries, hair loss etc. This property of high permeability is made use for delivering specific drug molecules for treatment of skin conditions.
3. Emu Skin: Emu skin is of high quality with usual yield of about 6 to 8 sq. ft. per bird. Which is used in preparation of leather products including apparels. The leg skin is very unique and with scales similar to crocodile skin and is being used in protective things for knives, swords and shoe top etc.
4. Emu feathers: Emu feathers have double rafts with sub branching , the down feathers are soft and are being used in preparation of brushes specifically used in cleaning hard ware and circuits of electronic goods including computers.
5. Emu egg and toe nail: The unfertilized eggs which are emerald green are cleaned and used in crafting antique mementos for sale with different carving on the shell. Emu nails are also been used as key chains, pendants in necklaces.
Products and by-products of poultry
Eggs : The egg production is the primary aim of keeping poultry farms. Eggs have a high nutritional value. Both the egg-white and yolk contain high quality protein (for both, this is at least 10% of their own weight). The egg-yolk has about 33% fat. Eggs also have a lot of vitamin A and D, and some vitamin B. The storage place for the eggs must be clean and as cool as possible, especially if the eggs must be kept for more than a week.
Chicken meat: Hens which have stopped laying will usually be used for feeding your family. If you want to sell the meat, it is often better to sell live chickens. There is a good market for the meat of local chicken breeds. Chicken meat is a high quality and healthy food with an average protein content of about 20% and relatively little fat (about 7%), especially under the skin.
Chicken manure: Chicken manure is very rich in nitrogen and other minerals, especially phosphorus, calcium and potassium. It is therefore a very good fertilizer. Manure which is stored for a long time will loose part of its value as fertilizer. Keep the manure as dry as possible. This minimizes the loss of minerals and problems with flies. Regularly removing the manure under a chicken house will also reduce the loss of minerals. There are several other uses for chicken manure. It can be put into fish ponds, where some of it is eaten by the fish, although most of it is used by the plants, which are then eaten by the fish. In many countries, dried chicken manure is fed to cattle or goats, e.g. in combination with grains and molasses. For this, the manure must not be too old, and must be dried quickly so that it keeps as many of its nutrients as possible. And gas can be made from the manure, using a biogas digester. The slurry which is then left over is still a very good fertilizer for use on the land and in fish ponds.
Slaughter waste: Slaughter waste produced on your farm is a very good feed supplement if it is ground up and dried well. The waste must be sterilized, or else there is a large chance of transmitting diseases. It is also very important that carcasses of birds which die during the production period are removed as quickly as possible.
Sunday, February 28, 2021
Poultry Birds
A young chicken from hatch to five
weeks of age is called a chick. A male
chicken less than one year of age is a cockerel; a female through her first
laying year may be referred to as a pullet.
A mature male chicken greater than one year of age is referred to as a
cock or rooster; a mature female greater than one year old may be called a hen.
.EGGS
Eggs are a biological structure proposed
by nature for reproduction of birds.
They protect the developing chick embryo and provide food for the first
few days of the chick’s life. The egg is
also one of the most nutritious and resourceful of human foods. The protective
covering known as the shell is composed primarily of calcium carbonate, with
6,000 to 8,000 microscopic pores permitting transfer of volatile
compounds. The air cell is located in
the large end of the egg, and is formed when the cooling egg contracts and
pulls the inner and outer shell membranes apart. The chord like chalazae holds the yolk in
position in the center of the egg. As shown,
a membrane surrounds the yolk,
known as the
vitelline membrane. The germinal disc, a
normal part of every egg, is located on the surface of the yolk. Embryo formation begins here only in
fertilized eggs. The albumen, or egg white, is secreted around the yolk. Four distinct layers of albumen can be recognized
in an egg: the chalaziferous layer, attached to the yolk; the inner thin
albumen; the thick albumen; and the outer thin albumen. Three-fourths of the albumen is made up of
the thick and outer thin albumen. The
twisting of the egg during formation appears responsible for the separation of
the albumen into the four layers. Two shell membranes are formed, an inner and
an outer shell membrane. These are
rather loose fitting membranes when first formed. Water is added to the egg to “plump out” the
egg into its final shape. The outer
shell membrane is about three times as thick as the inner membrane. The membranes normally adhere to each other
except at the large end of the egg, where they are separated to form the air
cell.
The eggshell is made up almost
entirely of calcium carbonate deposited on the outer shell membrane. The process of forming the shell requires 19
to 20 hours. About two grams of calcium
is deposited in each eggshell. Strong
eggshells are essential for eggs to be handled as they progress from farm to
market. Hens are usually fed a laying
ration to obtain the majority of the eggshell calcium directly from the feed,
but they also withdraw some calcium from their bones, especially at night when
they are not eating.
Why raising chickens.
People raise
chickens for eggs, meat, exhibition, and rare breed preservation, as well as
for the enjoyment of raising, caring for, and watching their interesting
behavior. Some people raise them to hear a rooster crow to symbolize past days
on the farm. There is a wide array of chicken breeds. Choosing the right type
of chicken can be difficult. The purpose of this publication is to help
beginners determine which types of chickens are most suited to their needs.
Egg production:
White Leghorns are prolific layers of white eggs. Golden Comets
and Red Sex Links are excellent layers of brown eggs. In general, chicken
breeds with white ear lobes lay white eggs, whereas chickens with red ear lobes
lay brown eggs.
Eggs and meat
Dual purpose breeds include several American and English breeds
such as Plymouth Rocks, Sussex, and Wyandottes. These breeds lay reasonably
well and are large enough for meat production.
Meat
. For meat production only, nothing compares with the fast growth
of Cornish Cross (White Cornish x White Plymouth Rock). They reach 4-5 lbs in 6
weeks and 6-10 lbs in 8-12 weeks.
Exhibition
Exhibition poultry shows are popular in Indiana and the Midwest. The American
Poultry Association (APA) publishes, The
American Standard of Perfection. This illustrated book gives a complete
description of all recognized breeds and varieties of domestic poultry.
Chickens are judged according to those descriptions of ideal breed type, color,
weight, and other characteristics for the particular breed and variety.
Products and by-products of poultry
Eggs : The egg production is the primary aim of keeping poultry farms. Eggs have a high nutritional value. Both the egg-white and yolk contain high quality protein (for both, this is at least 10% of their own weight). The egg-yolk has about 33% fat. Eggs also have a lot of vitamin A and D, and some vitamin B. The storage place for the eggs must be clean and as cool as possible, especially if the eggs must be kept for more than a week.
Chicken meat: Hens which have stopped laying will usually be used for feeding your family. If you want to sell the meat, it is often better to sell live chickens. There is a good market for the meat of local chicken breeds. Chicken meat is a high quality and healthy food with an average protein content of about 20% and relatively little fat (about 7%), especially under the skin.
Chicken manure: Chicken manure is very rich in nitrogen and other minerals, especially phosphorus, calcium and potassium. It is therefore a very good fertilizer. Manure which is stored for a long time will loose part of its value as fertilizer. Keep the manure as dry as possible. This minimizes the loss of minerals and problems with flies. Regularly removing the manure under a chicken house will also reduce the loss of minerals. There are several other uses for chicken manure. It can be put into fish ponds, where some of it is eaten by the fish, although most of it is used by the plants, which are then eaten by the fish. In many countries, dried chicken manure is fed to cattle or goats, e.g. in combination with grains and molasses. For this, the manure must not be too old, and must be dried quickly so that it keeps as many of its nutrients as possible. And gas can be made from the manure, using a biogas digester. The slurry which is then left over is still a very good fertilizer for use on the land and in fish ponds.
Slaughter waste: Slaughter waste produced on your farm is a very good feed supplement if it is ground up and dried well. The waste must be sterilized, or else there is a large chance of transmitting diseases. It is also very important that carcasses of birds which die during the production period are removed as quickly as possible.
All over the world, more than 300 breeds of the domestic chicken species (Gallus domesticus) exist. We distinguish three main categories of chicken breeds: pure commercial breeds, hybrid breeds resulting from cross-breeding, and local breeds or landraces.
Layers: egg-laying, mainly with lightweight laying breeds or layers
Broilers: meat production, mainly by heavyweight breeds or broilers
Dual purpose: both egg-laying and meat production by so-called dual-purpose breeds.
Breeds of poultry :
Chickens:
Chickens primarily are raised for meat and eggs. The type raised depends on the product
wanted. A few other specialty types are
raised, such as game chickens and fancy show chickens.Newly hatched
chicks. Chicks is a term used to
describe young chickens.
Rhode Island Reds are a good choice for the small flock owner. A dual-purpose medium-heavy fowl; used more
for egg production than meat production because of its dark-colored pin
feathers and its good rate of lay. Relatively hardy, they are probably the best
egg layers of the dual-purpose breeds. This
breed lays brown eggs.
Rhode Island Reds are tough birds, resistant to illness,
good at foraging and free-ranging, and are typically docile, quiet and
friendly. Although they are widely known as good layers through cold periods,
if the coop temperature drops below freezing their output drops considerably
and the tips of their combs become very susceptible to frostbite. Rhode Island
Reds are excellent egg layers. Although they can sometimes be stubborn, they
can end up producing up to 250 to 300 large, light brown eggs per year. When
free ranged, their first-year eggs can be too large to fit comfortably in a
standard or medium egg carton. 9 hens with 1 to 2 roosters can lay up to 6-7 eggs per day depending on
their conditions of care and treatment.
a dual-purpose
chicken, selected more for meat production than egg production. Medium heavy in
weight, it dresses a nice, plump carcass as either a broiler or a roaster. This breed lays brown eggs.White Leghorn is
the most popular commercial egg production breed.
Leghorns take their name from the city of Leghorn, Italy, where they are
considered to have originated. Leghorns and their descendants are the most
numerous breed we have in America today.
This breed lays white eggs.Buff Cochin hens do not have the elaborate
combs and coloring of the roosters.
Old English game
rooster. This breed is tightly feathered, very active,
and very noisy. Cochins are literally big, fluffy balls of feathers. They are
mainly kept as an ornamental fowl and are well suited to close confinement. Their ability as mothers is widely recognized
and Cochins are frequently used as foster mothers for game birds and other
species. Cochins are originally from
China but underwent considerable development in the U.S. They lay brown eggs.
Bantams Bantams are the miniatures of the poultry world. The word bantam is the overall term for more
than 350 kinds of true-breeding miniature chickens. Black Breasted Red Old
English Game Bantam roosters were once popular fighting birds until the sport
was outlawed. Today they are bred as
ornamental birds.
Black Breasted Red
Old English Game Bantam hens
are not as colorful as roosters but make attractive exhibits. Black Bantam
roosters are raised primarily as ornamental birds. Bantams are produced in a very large range of color markings. Bantams
will commonly have a name similar or like the standard chicken breeds followed
by bantam.
Turkeys may vary in color from white to
bronze with mottled shades of black.
The mottled shades are not as common as white or bronze.White turkeys
are the most popular turkeys for the production of meat. Others breeds can be bronze (red) or black
colored. This bird is strutting,
fluffing its feathers.
OTHER POULTRY BIRDS
GEESE
Many geese are kept for ornamental purposes. Some geese are kept to control weeds and grass. The Toulouse goose originates from the
Toulouse area of southern France. The
plumage is dark gray on the back, gradually shading to light gray edged with
white on the breast and to white on the abdomen. Many geese are kept for
ornamental purposes. Some geese are kept
to control weeds and grass. The White
Chinese goose has a distinctive knob on its head. Chinese geese can be colored brown in
addition to the white color. The Embden was one of the first breeds of geese
introduced to the United States. It
originated in Germany.
Ducks
are raised for meat, eggs, down and feathers. (Down is the soft feathery
covering that grows under feathers.)
Ducks are also kept as hobby or ornamental ducks.
Some duck species
used as poultry birds are as follows:
1.
White Pekin ducks
2. Rouen ducks
3.
Muscovy ducks
Virtually everything
from feathers to feet, including the liver and tongue, can be turned into a
profit; the only unusable thing about
them is their quack.
originated in South America. Numerous varieties of Muscovies exist; the
white variety is the most desirable for market purposes. Mucsovies are an excellent meat bird but
their low egg production makes them unsuitable for commercial duck farms. Although they are not ideally suited to
commercial production, Muscovies have excellent possibilities for small general
farms with special retail outlets. Call ducks are well suited as meat producers
but poor egg production and colored plumage make them unsuitable for commercial
production. The brightly colored plumage makes the Gray Call duck an attractive
exhibit on farms and estates.
Guineas are raised for food, as
novelty birds, and to stock game preserves. Guinea Fowl get their name from
Guinea, a part of the western coast of Africa.
History reveals that Guinea fowl have been raised as table fare since
before the time of the ancient Greeks
and Romans. Guinea fowl are used as a
substitute for game birds and are
considered a delicacy in some restaurants. Guineas might be more popular in
the United States if they were not so
loud with their harsh and seemingly never ending cry. They often have a bad
disposition and are not very popular with commercial producers.
Peafowl are raised for large,
beautiful feathers. The feathers may be
five times the length of the body. Peafowl belongs to the same family as pheasants and chickens, differing in no
important characteristic other than plumage.
Peafowl are native to India, Burma, and Malaya. Peafowl are usually sold as pairs of
ornamental birds. They are edible and
are regarded as a delicacy for special occasions. Peafowl have a very raucous
voice, which may annoy the neighbors.
Peacocks are the male and peahens are the
female of the species.
PIGEONS
Pigeons are versatile
with four distinct uses: (1) the sport
of racing pigeons; (2) flyers and performers; (3) showing fancy pigeons; and (4) meat production. There are about 200
different breeds of pigeons, each
distinct from the other in behavior, size, shape, stance, feather form, colors,
markings, and ornamentation. Pigeons often mate in pairs and remain pairs for
life.
DIETARY REQUIREMENT OF
POULTRY BIRDS
The energy intake
means the calories that are taken in by the chicken with its feed: see figure
25 for a schematic design. The amount of energy contained in feedstuffs is
normally expressed in units of metabolisable energy (ME) per unit weight. The
metabolisable energy refers to the feed energy that is available to the bird
for maintenance of vital functions and the production of meat and eggs. It is
expressed in e.g. calories per gram (cal/g) or kilocalories per kg (kcal/kg). 1
kcal equals 4,2 kJ. The enegy requirement of poultry can be expressed in terms
of metabolisable energy per day (kcal/d). Dietary energy comes mainly from
carbohydrates but also from fat and protein. Chickens are usually given free
access to food and allowed to consume as much as they wish. They usually
consume just enough food to meet their nutrient requirements. This control of
intake is based primarily on the amount of energy in the diet. Birds eat to
satisfy their energy requirements. Thus, increasing the concentration of energy
in the diet will result in a decrease in intake, and vice versa, as long as
intake is not limited by problems of bulk, texture, inaccessibility or
palatability. Levels of nutrients in a diet are therefore often stated in terms
of energy content. Recommended energy levels in poultry diets are about 2,800
kcal/kg for layers and about 3,000 kcal/kg for broilers (see appendix 2). When
chickens reduce their intake because of heat stress, it is advisable to use
more concentrated diets, so that they get enough nutrients in spite of the
lower intake.
Protein is made up
of amino acids, and birds obtain these amino acids from their feed to build up
their own proteins in the body. Priority always goes to maintenance, and any
surplus is used for growth or egg production. High protein feed is expensive,
so rations which are too high in protein are wasteful. The excess protein is
broken down and used as an energy source, and the excess nitrogen is excreted
as uric acid. The synthesis of protein in the body tissues requires an adequate
supply of about twenty different amino acids in the proper proportions. Ten of
these cannot be synthesized by the bird’s metabolism and must therefore be
supplied by the diet. These are called essential amino acids, the main ones
being lysine and methionine.
A shortage of
essential amino acids will limit production. The quality of feed protein can be
described in terms of the amino acids it supplies. However, it is useful to
specify total requirements for crude protein in addition to requirements for
the main essential amino acids. There should be enough crude protein to supply
the required amounts of these amino acids. In most nutrient requirement tables,
only the percentages of lysine and methionine are given, and these percentages
should be regarded as an indication that there is enough of the other essential
amino acids too.
Vitamin requirements:
Vitamins play a
role in the enzyme systems and natural resistance of poultry. They are only
needed in very small quantities, but are vital to sustain life. Vitamin deficiency
can lead to serious disorders. Natural vitamins are found in young and green
plants, seeds and insects. When birds are confined in poultry houses, they are
entirely dependent on the vitamins present in the compounded feed. All vitamins
may be purchased in a synthetic form at a commercial price, and may be added to
the mixed feed as a premix. Without extra vitamins, rations may not be balanced
enough to support high productivity.
Mineral requirements:
Minerals,
especially calcium (Ca) and phosphorus (P), are chiefly needed for the bones.
Enzyme systems are also often dependant on trace elements of certain minerals,
such as iron, copper, zinc and iodine. The mineral requirements of poultry are
defined in terms of the separate mineral elements, although minerals are always
added to diets in the form of compounds. It is useful to know the proportion of
each element in these compounds, so that the correct amount of this element can
be added to the diet.
Calcium and
phosphorus both primarily add to the structure and maintenance of the chicken
bones. The skeleton accounts for about 99% of the calcium and 80% of the
phosphorusin the body. The two minerals interact with each other, both before
and after their absorption from the digestive tract. An over-supply of either
mineral can interfere with the utilization of the other. During egg production,
calcium needs are more than doubled. Poultry’s calcium and phosphorus
requirements are influenced by the amount of vitamin D in the diet, increasing
as the level of vitamin D decreases and vice versa. For growing birds, the
ratio of Ca : P should be between 1:1 and 2:1. However, laying birds need a
ratio of up to 6:1, and they need about 4.0 g of calcium per day for eggshell
formation.
Supplements like
steamed bone-meal are added to chick and grower diets to provide extra calcium
and phosphorus. For laying birds, the extra calcium requirement is provided by
oyster-shell grit fed separately or by limestone flour added to the diet. The main
criteria for determining a laying hen’s requirements of calcium and phosphorus
are egg production and shell thickness. Calcium requirements should be
specified in terms of amount of calcium per day rather than percentage in
diets. This is particularly important in the tropics, where reduced intake due
to heat may result in too little calcium being consumed each day.
POULTRY HOUSE
Housing
systems :
§ Open
sided poultry houses are very popular in India. The poultry house should be
well ventilated and free from drafts.
§ The
distance between two sheds shall be 20m. Stock house for growers shall be 50 to
100 m away from the layer house to avoid infections.
§ The
shed has to face east-to-west along its length. This facilitates good sunshine
in winter and reduces direct sunlight in summer.
§ Housing
systems are of two types-battery and deep litter systems.
Battery system (cage system) :
·
It is the most intensive system
of poultry farming.
·
A cage of the size
15"(width) x12" (depth) x 17" (height on the front side) and
15" (height on the rear side) can accommodate only three birds.
·
Cage floor is set in a slope, so
that the eggs laid roll out of the cage in to the gutter. Below the cage, floor
tray is arranged to receive the droppings.
·
Both feed and water receptacles
are arranged out side the cage. These cages are assembled to one another.
·
These are multi-storeyed, if
necessary.
·
Advantages :
·
Wastage of feed is minimum.
·
A Bird utilizes minimum energy.
·
Performance of each bird can be
assessed very easily.
·
Culling of unproductive and sick
birds is easy.
·
More birds can be accommodated.
·
It is the labor saving practice.
·
Disadvantages :
·
High initial investment is
involved.
·
Birds suffer from cage fatigue
and fatty
·
liver syndrome (enlarged liver).
Deep Litter System :
A deep litter house with
corrugated metal and welded
mesh
·
Birds are kept in large pens.
Each pen can accommodate a maximum 250 birds.
·
Floor is covered with litter of
8" to 12" thickness and is created by using sawdust or husk or
groundnut shells.
·
Bird droppings accumulate into
the litter. Hence, this litter should be changed periodically. Each bird
requires the
·
floor space of 1.8 to 2.0 square
feet.
·
Proper ventilation is required to
keep the litter dry.
·
Advantages:
·
Coccidiosis and worm infections
are less common in deep litter system, as bird droppings are decomposed
·
quickly in the deep litter.
·
Litter maintains constant
temperature.
POULTRY
HOUSING EQUIPMENT
Feeders
:
·
Circular trough and long feeders
are used in deep litter system. Circular feeders are the hanging hoppers, which
·
are suitable for the birds of all
ages.
·
Long feeders and trough feeders
shall have non-Water fountain roosting devices to prevent the roosting of
birds.
·
Wire-hinged grill or galvanized
sheets with holes are used as non-roosting devices.
·
Chickens consume large amount of
water. So water shall be supplied to the birds all times.
·
Earthen pitcher a Fountains,
covered containers (consists of tin or earthen container with saucer, container
is
·
turned up side down) and water
troughs with non-roosting device are used as waterers in the deep litter
system.
·
II.
Broilers and their management :
·
A broiler or fryer is young
chicken of either sex below 8th to 10th week age, weighing 1.5 kg and with
smooth textured breast.
·
These are used for meat purpose.
Roaster is an older and heavier than the broiler bird.
·
Broiler rearing is mainly
brooding. Brooding is continued for the first two weeks. Mostly deep litter
system of housing is followed in India for broiler rearing.
·
Temperature should be reduced
gradually from 95°F to 70°F at the rate of 5° F per week. Proper ventilation
shall be maintained to provide more oxygen, to remove ammonia and to keep
carbon dioxide at low level. Floor space of 1.0 to 1.2 square feet is required
per bird.
·
De-beaking is not practiced for
broilers at present. As feed, Pre-starter mash containing 22% protein and 3200 k.cal
energy is given initially.
·
Starter mash, containing 20 to
25% protein and 3200 k.cal energy, is provided up to 7th week; finish mash,
containing 19%
protein and 3400 k.cal energy, should be given from 7th week to the 10th week.
POULTRY MANAGEMENT
1. practices for layers and broilers, Management practices for
raising layer birds:
1) Layers are the birds used exclusively for eggs. The following
management practices are required for layers.
Management practices
in hatching the eggs :
2) In 21 days, a fertilized egg develops into a chick through a
process of hatching. It may be natural or artificial.
3) Natural hatching is a primitive process in which brooding hen
hatches the eggs.
4) Incubators (electrical instrument for maintaining required
temperature) are used for temperature maintenance in artificial broading
followed in hatcheries.
2.
Management
of birds at different ages :
1) Management in
Brooding of chicks :
3. Rearing of 1 day
old chicks till 8th week (until they no
longer require supplementary heat) is called brooding.
1) Brooding is natural and artificial. Desi hens with strong maternal
instinct brood the day old chicks till the 8th week.
2) Artificial brooding is accomplished by temperature - controlled
brooders. Basket brooders are used for small number of chicks and battery
brooders are used for large number of chicks.
3) Basket brooders have hanging brooding hover, fitted with bulb.
Chick guard is used to contain the chicks.
4) 30"xl5"xl5" battery brooder (cage brooder) can
accommodate 30 chicks.
5) Battery brooders are with adjustable waterers, feeders and
thermostatic heat regulators
4. Brooder house should be cleaned properly and should be kept
disinfected by suitable disinfectants, A layer of 5 cm thick litter should be
made with husk or saw dust. Litter shall be stirred frequently.
1) Temperature has to be maintained 95°F during the first week, 90° F
second week, 85°F third week, 80°F fourth week to eighth week.
2) Temperature can be reduced by adjusting the height of the hover.
Chick guard is placed 1.2 m away from the hover edge to contain the chicks.
Uniform light and temperature are required.
3) If the temperature is too high, the chicks move away from the
hover too less, the chicks aggregate below the hover.
4) If the temperature is uniform, the chicks distribute evenly.
5) The feed given for these chicks is brooder mash, or chick mash. It
contains 21% protein, 2900 to 3000 k.cal energy.
6) 1st de-beaking (clipping of upper beak) on 10th day is
desirable.
7) One day old chicks have to be vaccinated against Mareck’s
diseases.
8) Birds shall be vaccinated against Ranikhet disease and fowl pox at
the age of 6th to 8th week.
9) 1st de-worming is necessary
at the age of 8 weeks.
5.
2) Management practices in
raising the pullets
6. The objective of grower management is to produce a pullet, which
will lay eggs from 17th or 20th week.
1) The mash given is grower mash containing 17.5% protein 2700 k.cal
energy.
2) 2nd de-worming
is necessary for every 8 weeks then onwards, to remove the intestinal
parasites.
7. 2nd de-beaking is advised at the age of 13th or 14th
week. The booster dose of Raniket disease has to be given
at the age of 8-10 weeks.
8.
3) Management in raising
the egg laying birds:
9. From 17th or 20th
week of age, the chicks start laying eggs. One laying nest is required for
every four birds.
1) Pre-layer mash containing 16.5% protein, 2.5% calcium and 2500
k.cal energy should be supplied from 17th to 20th week.
2) Then onwards layer mash containing 16.5% protein, 3.7 to 3.8%
calcium and 2500 k.cal energy is required.
3) The poor layers which are unproductive and uneconomical are
usually culled. Good and poor layer birds can be
HATCHING EGGS BY USING BROODING HENS
One brooding hen is capable of
hatching 8-10 eggs at the same time. If about 70% of the chicks hatch, this
means that each brooding hen gives 6-7 chicks. However, the mortality rate
among young chicks can be very high. You experience and the extent to which you
can minimize deaths among young chicks determine, therefore, how many brooding
hens you will need.
Use the following criteria to choose which eggs to hatch:
1. The eggs selected must, of course, be fertilized. This is rarely
a problem if there is a cock present. On
average, one cock is needed for every 10 hens. If a cock is not normally kept
with the hens, he must be put in with the hens two weeks before the hatching
period.
2. Use undamaged and clean eggs which are neither too small nor too
large. The best results can be expected if you choose medium sized eggs from
hens which lay well.
3. Collect the eggs regularly, e.g. three times a day. Let the eggs
cool down as quickly as possible.
4. If necessary, keep the eggs for a few days, but preferably not for
more than a week. If the eggs have to be kept for a week, they must be stored
at a temperature of between 14 and 16 °C. Storing hatching eggs at temperatures
below 12 – 14 °C is not advisable. If
the temperature cannot be kept at the recommended level, a shorter storage
period is necessary. Eggs can be kept for only three days at 20°C. Write the date of collection on the egg
in pencil, to help you remember how long the egg can be stored.
5. If a hen shows broody behavior for two days, she can be used for
brooding. Brooding hens must be healthy and not too small.
A broody hen can be recognized by:
·
a characteristic
broody sound
·
a wrinkled comb
·
an unwillingness to
leave her nest
·
the collecting of as
many eggs as possible in her nest.
6. Before allowing a hen to brood, it is best to treat her with an
insecticide against flies and lice. If flies and lice are a problem, the
treatment should be repeated after 10 days. In the beginning, the hen will brood
irregularly until she can sit on 6 to 12 eggs. It is best not to let the hen
sit on selected eggs during this period. Only when she broods regularly can the
eggs be replaced with specially selected eggs. Large hens
7. can brood on 14 eggs, but a smaller, local hen brood should be
given no more than 8 eggs to brood on.
8. Use a clean and parasite-free brooding coop. The coop should be
about 35 x 35 cm, and 40 cm high. The nest consists of straw, hay or dry
leaves, and is about 25 cm wide. To stimulate the brooding process, you can
place the coop in a cool, dark place, or partially cover it.
9. The brooding place must be free from other chickens and protected
against dogs, rats, snakes etc. It is a good idea to add a run onto the
brooding coop. Place good feed and clean, fresh water near the brooding hen.
Artificial hatching
It is possible to buy small incubators
which hatch out a larger number of eggs at the same time. You can, however,
also build such a device yourself using relatively simple materials. Hatching
eggs by hens or in an incubator. This booklet describes how to construct an
incubator capable of hatching 50 eggs at the same time.
The most important requirements for artificial hatching are:
·
You must be able to
regulate the temperature you need. This must be about 38°C (100 F). Only a
simple heat source is needed.
·
The temperature must
be kept as constant as possible.
·
The relative humidity
of the air must be quite high, at about 55-60%. It must be increased to about
75% after the 18th day, by placing bowls of water in the incubator. Of course
you must keep the bowls filled.
·
Fresh air must be
circulated through the incubator regularly. The eggs must be turned regularly
(preferably 2 or 3 times a day). To turn an egg, you must rotate it 180° about
its longest axis.
·
With the proper care
and effort you can achieve almost the same results with artificial hatching as
with brooding hens. Still, it is usually better to count on a slightly lower
success rate, e.g. 65-70% instead of 75-80%. The brooding period should be
timed so that the chicks hatch in the dry season.
POULTRY DISEASES:
BACTERIAL DISEASES
Colibacillosis: This
is the common name for a large variety of diseases, including yolk-sac
infection of chicks, reproductive disorders and peritonitis in layers, and
septicemia (blood poisoning) in growers. They are all caused by the bacterium
Escherichia coli, which is found in the intestines of all warm-blooded animals.
Affected birds can be treated with antibiotics. To prevent further spread of
this organism, disinfect the premises and the pens with a commercial
disinfectant, and provide good drainage.
Salmonella infection
(paratyphoid and pullorum):
(i)
Paratyphoid (salmonellosis)
Salmonella infections
may affect all domestic poultry, although adult birds often do not show any
symptoms. Salmonella bacteria may also contaminate hatching eggs, which results
in diarrhea, depression and death in young chicks. Paratyphoid is highly
infectious and can be transmitted by mice, rats, other birds and/or through
contaminated feed. Symptomless adult birds constitute a human health risk if
meat and egg hygiene are not adequate.
(ii)
Pullorum
(bacillary white diarrhea).
Usually a symptomless
disease in adults, pullorum is transmitted to young chicks through the egg.
This results in fatal diarrhea within the first four weeks of life. Adult birds
may suffer from infection of the ovaries, or septicemia. This disease can be
eliminated with good hatchery hygiene. To avoid this disease, buy chicks only from a
reputable hatchery.
Psittacosis
Psittacosis is found mainly in
psittacine birds (parrots, lorikeets, galahs, cockatoos, budgerigars etc), but
may also affect pigeons, turkeys and chickens. In chickens, symptoms may pass
unnoticed or the birds may exhibit general weakness, diarrhea and discharge
from the eyes and nose. All infected birds should be culled and burned. The
remainder of the flock should be treated with antibiotics in the feed. As the
disease can be transmitted to humans, great care must be taken when handling
infected birds. In humans, the disease resembles influenza but can progress to
a severe, and possibly fatal, pneumonia.
Avian spirochaetosis (tick
fever)
In chickens and turkeys the blood
parasite Borrelia anserina causes a relapsing fever-like condition. This
disease, which is transmitted by the fowl tick Argas persicus, has been
diagnosed in Darwin, Alice Springs and on many stations. Birds of all ages may
be infected. They become feverish, have green diarrhea and may become
paralyzed in the wings or legs. The disease can be controlled by eliminating
ticks from the flock. In backyard flocks, the painting of perches
and woodwork with sump-oil or creosote and removing and disposing of wood and
rubbish from yards is usually an effective method of control.
Staphylococcus infections
The bacterium Staphylococcus aureus is
widespread in the environment and causes a variety of opportunistic infections
in poultry, especially in the tropics. These include foot abscesses, infections
of joint membranes and dermatitis of combs and wattles. These infections may be
treated with suitable antibiotics in the feed. Badly-infected birds are best
removed and destroyed, as full recovery does not usually occur. The premises
should be disinfected.
Infectious coryza
Infectious coryza is caused by a small
bacterium Haemophilus gallinarum, which mainly infects growing and laying fowls
under conditions of poor hygiene, ventilation and nutrition. Symptoms are
discharge from the eyes and nostrils, a swollen face, a drop in egg production
and sometimes diarrhea. It is a chronic disease, which can result in
mortalities when complicated with other infectious agents. Infected birds
should be culled, as they may remain carriers for several months after
infection. Preventative measures include rearing growers away from older birds,
culling of carrier birds and improved management.
Chronic respiratory disease (CRD)
CRD is caused by Mycoplasma
gallisepticum. Its symptoms are sniffling, sneezing and depressed egg
production in chickens and sinusitis in turkeys. Its severity often depends on
the concurrent presence of other diseases. Both turkeys and fowls of all ages
can be infected. This disease is transmitted by inhaling infected air droplets,
through eggs to the next generation, or by mechanical means, such as boots and equipment.
The organism will die in a day or two when pens are empty, but recovered birds
may remain carriers for some time. CRD may be treated with specific antibiotics
and vitamin supplements in the feed if only a few birds are involved. Another
bacterium of this group, Mycoplama synoviae, causes subclinical upper
respiratory tract infection and may be involved in air sacculitis associated
with Newcastle disease and infectious bronchitis. Consult your veterinarian for
antibiotic recommendations for these diseases. Vaccines are available for both
of them.
Fowl cholera:
All domestic poultry are susceptible to this highly infectious
disease, caused by the bacterium Pasteurella multocida. Fowl cholera may be
deadly, or may linger in infected birds. Symptoms are variable and include
respiratory problems and diarrhea. It is spread through the flock by
contaminated water, in droppings and in nasal discharges. All infected birds
should be culled and burned. The disease can be treated with a number of
antibiotics or sulphonamide drugs. It can be prevented by good management and
vaccination.
Tuberculosis (Mycobacterium
avium):
Rarely found in young chicks, this
infection is a "wasting" disease of all domestic poultry, canaries,
parrots, pigeons and wild birds kept in captivity. Avian tuberculosis may be
transmitted to humans, cattle and pigs. Symptoms are not specific and may
include gradual loss of weight, diarrhea, lameness, general weakness and
eventually, death. Treatment is not recommended. All infected birds should be
culled and burned. The premises should be cleaned with a phenolic disinfectant
or lime and then left for two years before introducing a new flock. Notify the
Department of Resources if you suspect tuberculosis in your poultry.
FUNGAL DISEASES
As all domestic poultry, wild birds,
other animals and humans can be infected by fungi, take great care when
handling infected birds. Transmission occurs by inhaling fungal spores from
sick birds, contaminated litter or feed.
Aspergillosis:
The most common fungal disease in birds is Aspergillus fumigatus,
which causes pneumonia or enteritis in all age groups, especially in the
presence of other infections. Treatment is not recommended. Infected birds
should be culled and burned. All moldy litter should be removed and burned and
the pens should be sprayed with 1% copper sulfate.
Candidiasis or thrush:
Candidiasis is another common fungal disease, which is found in
younger age groups of all domestic poultry. It usually affects the mouth and
crop, with sour-smelling crop content. It may also cause diarrhea. It
primarily affects stressed birds. Check for unsanitary conditions, overcrowding
and coccidiosis. Treat with nystatin to provide effective control.
PROTOZOAN DISEASES
Coccidiosis:
Coccidiosis is one of the most common
diseases of poultry. It is caused by a number of species of protozoa called
coccidia. Fowls, turkeys, ducks and geese are all affected. However, coccidia
are host-specific, so fowls are not affected by duck coccidia and vice versa.
The disease usually affects birds over three weeks of age. The symptoms include
ruffled feathers, drooping wings, pale combs and diarrhea, sometimes streaked
with blood. Most losses occur in young birds, but adult birds can also be
affected. Large numbers of chickens may die suddenly without apparent symptoms.
The coccidia live in the intestine or
caecum of the bird and pass out through the droppings. They become infective in
damp surroundings and are spread from bird to bird when infected droppings are
eaten. Coccidia may survive for long periods in the litter. Good management
will help prevent serious outbreaks of coccidiosis. If birds are denied access
to droppings, the life cycle will be broken. This is achieved when birds are
raised on wire. Damp litter around water troughs will allow coccidia to become
infective. Medication in feed is often necessary to prevent outbreaks of
coccidiosis. Young birds raised on the ground should be routinely treated with
a coccidiostat. As the wet season provides ideal conditions for coccidia to
become infective, medication is recommended at that time.
Blackhead:
The protozoon that causes this disease
is Histomonas meleagridis. Both young fowls and turkey sare affected by this
protozoon but turkeys are far more susceptible and are more likely to contract this
disease when run with poultry than when run on their own. Histomonads live largely
in the caecum (blind gut) and invade other organs from there. Symptoms of
blackhead include a drooped and huddled appearance, dark coloration of the
head, shrunken comb and wattles and yellowish diarrhea. Living in the caecum
places the histomonads in contact with the caecal worm (Heterakis gallinae) and
the eggs of the worm become infected with the protozoa. Blackhead is transmitted
when bird seat droppings containing these infected worm eggs. Drugs are
available to treat blackheads. To prevent re-infection, control caecal worms at the
same time with good management. Turkeys and fowls should not be run together.
Trichomoniasis:
Trichomoniasis is caused by
Trichomonas gallina. It is a disease of the upper digestive tract. It has been
found in pigeons, doves, and kites in the NT but may invade hens and turkeys if they
drink infected water or eat infected feed. Affected pigeons will go off-feed,
appear ruffled, become emaciated, and die, with a green-yellow fluid dripping
from the beak.
VIRAL DISEASES
Viral diseases are the most common
cause of losses, not only in large commercial flocks but also in backyard chickens.
Mostly, they do not respond to drug therapy. Treatment relies on supportive
measures. Prevention and control rely on vaccination where this is effective,
or by limiting exposure to infected birds. If a secondary bacterial infection
is also present, antibiotics may reduce the severity of an outbreak.
Marek's disease
(MD)
This disease usually affects birds two
to five months old and causes lymphoid tumors. Symptoms vary according to the
position of the tumors. Usually, the nerves are affected and spastic paralysis
occurs either in the legs, wings, or neck. The virus of MD can remain infective
for many months in the litter or dry feathers.MD is prevented very effectively by
vaccinating day-old chicks. Buy only vaccinated chicks.
Lymphoid leucosis
This disease is normally found in
chickens more than four months old. They pick it up in the first few weeks of their
life, or from the mother which, if affected, passes leucosis through the egg.
The tumors develop lowly; birds become
sickly, pale and thin, and often have an enlarged abdomen. There is no known
effective treatment for leucosis, no rare there vaccines available.
Affected birds should be culled from the flock.
Fowlpox
This is a highly infectious disease
caused by various host-specific strains of the poxvirus. Many birds are
affected by these viruses to some extent. The virus can be transmitted directly
by infected birds, or be carried by mosquitoes, or other blood-sucking insects.
By eliminating breeding areas for these insects, the rate of spread of the
virus will decrease. The fowl poxvirus attacks the skin and the surface of the
mouth and throat. Depending on its location, pox is referred to as either skin
pox or wet pox. Skin pox form swart-like sores, which eventually enlarge and
form masses of yellow, dirty crusts. In about a week, these scabs darken and
fall off. Wet pox forms cheesy masses in the mouth, nose, and throat, which interfere
with eating and drinking. Antibiotics may be administered to prevent bacterial
infections but the best method of control and prevention is by vaccination of
day-old chicks. This virus is capable of surviving for a long time in infected
material, such as scabs and litter. Such material should therefore be
incinerated.
Infectious bronchitis (IB)
IB is an acute, highly infectious
disease of poultry, which may kill young chicks and lower egg production in
adult birds. Birds sneeze and have a moist cough. The entire flock will be
affected. Laying birds will stop laying and it may take a very long time for
them to return to production. There is no effective treatment for this disease.
Maintenance of a correct, even temperature in the brooder and a high-quality diet will help to minimize losses. Commercial flocks are routinely vaccinated.
Infectious laryngotracheitis (ILT)
ILT is a disease of all ages of
poultry, although usually it is seen in adult birds. An acute form may attack
100% of a flock and cause severe mortality. In the acute form, affected birds
exhibit a nasal discharge, gurgling breath sounds, gasping, and coughing up of
blood-stained mucus. In the mild form, birds are unthrifty, lay poorly, and have
watery eyes and a persistent nasal discharge. There is no effective treatment
but vaccination of unaffected birds may limit an outbreak. Vaccination is
effective in preventing the appearance of the disease.
Reticuloendotheliosis
(RE)
RE became an important disease of
commercial flocks in 1976 and, occasionally, still appears in an epidemic form.
It causes running, increased susceptibility to other diseases, and feathering
defects in growing chicks. In adult birds, it causes Lymphoid tumors. No
treatment or vaccination is available.
Avian encephalomyelitis (AE)
AE is a disease of poultry, turkeys,
pheasants, and quail, which affects only chicks from hatching to about two
months of age. The symptoms are dullness, tremors of the head, staggering,
paralysis, and prostration. Adult birds show no symptoms other than a decline in
egg production, but they carry the virus and pass it on through the egg. The
disease may also spread from chick to chick and up to 60% of birds may be
affected. There is no treatment for AE but vaccination will prevent it.
EXOTIC DISEASES
Exotic diseases are those which are
present elsewhere in the world but not in Australia. There are three which particularly
threaten the Australian poultry industry.
Newcastle disease:
This virus is found in Australia in a mild form only. The
dangerous form is widespread throughout the rest of the world. If it became
established in Australia, the cost to the poultry industry could be enormous.
Newcastle disease is a highly contagious, lethal disease of chickens and
turkeys, although nearly all avian species are susceptible. It may also cause
conjunctivitis in humans. In poultry, it may take the form of hemorrhagic
enteritis and paralysis or acute respiratory disease.
Avian influenza or bird flu:
It is potentially a fatal disease
affecting several bird species and humans. Its symptoms range from mild upper
respiratory disease to an acute, generalized, fatal condition. The virus may
remain infective in droppings and water for at least a month.
Then the following can only be used as guidelines for disease control, for proper
disease
diagnosis
and treatment, consult the veterinarian.
•
Don’t overcrowd brooders
•
Adequate ventilation
•
Feed must be of good quality
•
Give clean water ad-lib
•
Don’t mix young and older birds
•
Clean poultry house
•
Dispose of dead birds quickly and isolate sick ones
•
Provide disinfectant at the entrance to the house
•
NB: Antibiotics should never be used to replace good management
and
should be used on prescription by a veterinary
General Biosecurity /Sanitation
Program for Poultry
•Do
not expose your flock to birds from other flocks.
•Buy
chicks from known sources.
•Buy
chicks from pullorum clean flocks.
•Keep
young chicks away from older birds.
•Burn
or bury dead birds.
•Allow
no contaminated equipment to be brought on your premises.
•Keep
visitors away from your poultry houses or ranges.
•Keep
chickens that have left the premises from getting back into the flock.
•Dispose
of sick chickens.
•Should
disease appear, seek authoritative advice promptly.
•Use
preventative and control medications with extreme caution.
•Treat
droppings as potential disease spreaders.
•Try
to eliminate rats, lice, and other pests.
•Handle
vaccines properly. Follow the manufacturer's directions.
•Keep
different species of fowl segregated.
•Do
not sell birds known to be diseased.
•Clean
poultry buildings carefully and thoroughly.
•Enforce
a strict program of sanitation and quarantine.