Poultry Farming Practices PDF

Summary

This document provides a chapter summary on poultry farming practices, including different production methods like cage, barn, free-range, and pastured systems. It highlights ethical concerns and the evolution of poultry farming practices.

Full Transcript

CHAPTER 13
Shutterstock.com/C.Lotongkum

Poultry
CHAPTER SUMMARY
Chicken eggs and meat are produced in many ways, including via cage, barn, free-range, pastured and
organic systems. Chickens can be monitored throughout their growth and development within the egg
by using a method called candling. Chicks are then grown in rearing sheds, with extra warmth provided
by brooder lamps for the first weeks of their life. Different techniques can be used to improve growth of
chicks, such as using various light colours to increase their growth rate.
Poultry production has many ethical concerns; for example, cage production doesn’t allow chickens to
roam naturally. As a result, free-range chickens are slowly becoming more popular, despite the increased
production cost for farmers. Ethical concerns must be weighed with production concerns to ensure the
most efficient and successful business for the farmer.

How has poultry farming changed over time?
How can chickens be produced ethically?
Are chickens a sustainable alternative to other farm animals?
 354 AG TECH FOCUS 9780170443111

13.1 Introduction
Poultry are domesticated birds farmed for meat, eggs or feathers. The term ‘poultry’ includes
chickens, ducks, geese, turkeys, pigeons, quails, pheasants, and even ostriches and emus.
In Australia, emus, mutton birds and parrots were hunted and trapped by Aboriginal peoples
for millennia, customary practices that still occur today. An emu caller, made from hollowed-
out wood, attracts the male emu away from his nest. Although emu nests could contain up
to 15 eggs, it was normal practice for hunters to leave some eggs, ensuring a sustainable emu
population and harvests for future years.
The first period of Maori settlement in New Zealand is named after a now-extinct
giant bird, the moa. Twelve species of moa inhabited New Zealand, the largest birds reaching
3 metres in height. These giant flightless birds were hunted alongside weka (ground hens) and
kakapo (semi-flightless night parrots).
Chickens descended from the red junglefowl of India over 7000 years ago, arriving in
Australia with the First Fleet in 1788. Over time, poultry became a common fixture in
Australian backyards, allowing many families to be self-sufficient in their production of eggs and
meat. Chickens are still the most popular poultry species in Australia today, although the nature
of egg and meat farming has changed considerably.
Australia’s poultry industry has become larger and more specialised. Hatcheries, breeding
farms, feed mills, chicken meat growers, egg producers and marketing companies have evolved
to concentrate on individual steps in the production, processing and marketing of chicken
eggs and meat. Today, the poultry industry consists mainly of large-scale producers located near
major towns and cities.

13.2 Functions and anatomy

Functions
Layer birds
Layer birds produce eggs that are sold whole as table eggs or processed into egg products such
as egg pulp and liquid eggs. Compared with birds used for meat production, layer birds have
much lighter frames. All their energy goes into producing eggs rather than meat carcases, with
the average commercial layer bird producing around 350 eggs per year. Layer birds are selected
for a number of traits, including:
high egg production
egg weight
shell colour and strength
a long laying life.
hybrid an organism bred Most layer birds are hybrids, produced from crossing pure breeds selected for these
from crossing two different production traits. In Australia, approximately 98% of eggs are produced by ISA Brown,
varieties, breeds or
sometimes species Hy-Line, Hisex and other layer hybrids. Hybrids inherit the superior egg production traits
from both of their parents and also display hybrid vigour, meaning they perform better than
the average of their parent breeds and are usually healthy and robust. Commercial layer hybrids
9780170443111 CHAPTER 13 – POULTRY 355

are produced by crossbreeding a number of generations of selectively-bred pure lines. As a

CHAPTER 13
result, backyard breeders cannot create new ISA Brown, Hisex or Hy-Line layer birds by simply
breeding existing birds. Each hybrid layer is the result of a carefully managed and controlled
breeding system owned by specific breeding companies.

DID The ‘ISA’ in ISA Brown stands for Institute de Selection Animale, the French
YOU company that developed this hybrid layer in 1978.
KNOW

ISA Browns, Hy-Lines and Hisex laying hens are

Shutterstock.com/Ivonne Wierink
sex-linked hybrids. The colour of the newly hatched chicks
is determined by their sex, with males hatching out yellow
and females hatching brown. This makes the hatchery’s job of
sexing the layer chicks very easy.

Meat birds
Just like layers, commercial meat birds are hybrids. Since the
late 1990s, fertilised eggs from international poultry genetics
companies have been imported into Australia to improve the
production, fertility and welfare of meat chickens. The high
growth rates and large carcases of meat birds are not due to
steroids, growth hormones or genetic modification, but are Figure 13.1 ISA Brown hen
solely the result of careful selective breeding. Today’s meat
chickens are selected for:
high meat yields

Shutterstock.com/Mriya Wildlife
efficient conversion of feed into weight gain (known as
feed conversion efficiency)
reproductive fitness and fertility
leg and cardiac strength
disease resistance.
Most Australian meat bird hybrids are produced from
crosses between the Cobb and Ross breeds. Both sexes are
grown and used for meat production.

Purebreds
Popular purebreds include Australorps, Leghorns, Light
Sussex and Rhode Island Reds. Some of these are dual-
Figure 13.2 Thirty-day-old
purpose birds, being kept for both meat and egg production. meat bird
Purebred chickens are an important source of genes for
commercial layer and meat breeders. New
crosses are developed from purebreds with
desirable characteristics. Poultry clubs and DID Bantam chickens are smaller

chicken fanciers play an important role YOU breeds of chickens. Many full
sized or standard breeds have
in preserving and protecting the genetic KNOW a bantam version.
variation of chickens.
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Poultry by-products
Poultry by-products include feathers; down; blood, meat and bone residues from processing
plants; manures; and soiled bedding or litter from housing. Manures and soiled litter are
processed into fertilisers, while other by-products are rendered to produce meat and bone meal,
blood meal, fats and oils. Poultry meat meal is an important source of protein in some animal
feeds. Fats and oils are used by pharmaceutical and chemical companies.
Feathers and down are used for insulation and padding for pillows, doonas, sleeping bags,
clothing and furniture. Feathers and down are sourced from ducks and geese, not chickens, and are
imported into Australia. Birds are often plucked alive, up to four times a year.The Traceable Down
Standard has been introduced to address animal welfare concerns in the feather-and-down industry.
To meet the standard, producers have to conform to local animal welfare regulations and cannot
engage in live plucking.

AG IN FOCUS

MUTTON BIRDING IN AUSTRALIA AND NEW ZEALAND
Identify

Shutterstock.com/ivandon
Tasmanian Aboriginal
peoples and the Rakuira
Maori have harvested mutton
bird chicks from the wild for
thousands of years.

Understand
Mutton birds, or short-tailed
shearwaters, are valued for
their meat, oil, feathers and
down. Chicks are harvested
in April, just before they
get their flight feathers and Figure 13.3 The short-tailed shearwater or mutton bird
migrate to the Arctic. They
are at their heaviest at this stage, and contain the most gurry, or gut oil.
Apart from being a source of food and fibre, mutton bird harvesting is also an
important cultural practice. Commercial mutton bird harvesting is only carried out
by local Aboriginal and Maori people, and is conducted in a sustainable fashion.
Populations of birds are monitored to ensure harvesting will not have long-term
Investigate how these birds are impacts on mutton bird colonies. During the harvesting process, burrows are
used by Tasmanian Aboriginal
peoples and learn how to cook
protected because birds will reuse these over a number of seasons.
mutton bird. Unfortunately, mutton bird populations are threatened by environmental changes
and commercial fishing. Animal rights activists are opposed to the harvest of the
chicks, which they view as inhumane.

Discussion
1 Why is harvesting conducted just before the chicks migrate?
Read about the steps in
harvesting and processing of 2 Identify some uses of, and products made from, mutton birds.
mutton birds in New Zealand.
3 Explain why mutton birding is under threat.
4 Discuss the practices used to manage and harvest mutton birds sustainably.
9780170443111 CHAPTER 13 – POULTRY 357

Anatomy

CHAPTER 13
Poultry terms
Newly hatched chickens are called chicks. Up until one year of age, males are called cockerels,
after which they are known as roosters or cock birds. Until they start laying eggs, females are
known as pullets. Once they start laying they are called hens.

Anatomy of a rooster and hen
Points
Sickle feathers Comb Nostril
Upper beak
Tail Face Comb
WS
Earlobe Nostril Tail
Saddle Face
Cushion Homework

Back Earlobe Review what you know about
Lower beak poultry anatomy by completing
Back the worksheet on NelsonNet.

Wattles
Hackle feathers

Breast

Hock Fluff
Spur Shank Hock

Toes or claws

Figure 13.4 Anatomy of a rooster and hen

Shutterstock.com/logika600
Eggshell Chalaza
Structures of an egg Exterior albumen
Eggs consist of a hard protective shell with thousands Shell membranes Middle albumen
of tiny pores to allow airflow. The central yolk has a Germinal disk
tiny germinal disc where the chicken embryo will Chalaza
Egg yolk
develop if the egg is fertilised. The yolk provides food Air cell
for the developing chick and is held in place by the
chalazae. The egg white, or albumen, cushions the Figure 13.5 The structures of an egg
yolk and acts as a barrier against external germs.

WHAT IS INSIDE AN EGG?
PURPOSE METHOD
To examine the structures inside an egg 1 Carefully crack an egg onto a paper
plate and identify the structures
RISK ASSESSMENT shown above.
LET’S ENGAGE

Wash hands before and after DISCUSSION
this activity. 1 Draw a labelled diagram of your
egg.
MATERIALS 2 Construct a table detailing the
Fresh eggs structures and functions of an egg.
Paper plates
Probes or icypole sticks
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LET’S REVIEW

LOOKING BACK
1 Identify the two main types of poultry enterprises.
2 Define the following terms: hen, pullet, chick, rooster, meat bird, layer, dual-purpose
bird and hybrid.
3 How can you tell male and female layer hybrid chicks apart?
4 Why are sex-linked hybrids considered better than purebreds for commercial production?
5 Identify five products made from chickens or other poultry species.

FOR YOU TO DO
1 Examine a hen or rooster and identify the main anatomical features.
2 Compare layer birds and meat birds in terms of the traits used for selective breeding.
3 Contact your local poultry club or visit a poultry fancier to learn about the range of
purebreds in your area.

TAKING IT FURTHER
1 Write a report on one breed of chicken, outlining its appearance, history and uses.
2 Eiderdown is considered a sustainable alternative to other types of down. Investigate
Watch a video about the
the eiderdown production process and discover why eiderdown is so highly regarded,
eiderdown production process and why it is much more expensive than other down.

13.3 Production

Cycle
Layer production cycle

Breeding farm
Roosters and hens housed Culled
together to produce fertile eggs

Fertile eggs Hatchery Male chicks

Eggs placed in incubator Sexing,
vaccination,
Hatching: +/- beak
Setting: 18 days
3 days trimming

One-day-old female chicks

Rearing shed
Brooder lamps used for
first five weeks

16-week-old pullets
Layer housing

Cage Barn Free range Pastured

Figure 13.6 The production cycle of layer birds
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The hatchery

CHAPTER 13
Hatcheries are specialised facilities for incubating eggs. Fertile eggs from breeding farms are
placed in an incubator for 21 days. The temperature, relative humidity and airflow are controlled
to provide optimum conditions for the developing chicks. Incubation is divided into two periods.
1 Setting: during the first 18 days, the eggs are turned throughout the day to stop the
developing chick from sticking to the shell.
2 Hatching: for the last three days, the eggs are not turned so the chick has time to prepare for incubator a device used
hatching. to optimise conditions for
hatching fertile eggs
After hatching, birds are sexed. Male
chicks are separated and culled because
DID Newly hatched chicks absorb the

they cannot lay eggs. The females are
YOU remains of their yolk and use this
as food for up to 72 hours after
then vaccinated. Sometimes the chicks’
KNOW hatching. They do not need food
beaks are trimmed to reduce injury and during this stage.
cannibalism. Learn more about the
egg production cycle at
Australian Eggs.

AG IN FOCUS

MALE CHICKS AND GENE MARKERS
Identify
A number of new technologies are currently being developed to sex chicks while they
are still in the egg.

Understand
The CSIRO is investigating using gene markers to separate male chicks from females
before they hatch.
A gene marker is a segment of DNA for which the location is known and associated
with a particular gene. The marker might be part of the gene or close to it. If the
presence of the marker is detected, it means the gene is also present. Eggs can be
scanned at the hatchery for the presence of a sex-related gene marker at nine days
incubation. Male eggs can be identified and disposed of humanely, reducing the costs
associated with incubating, handling, sexing and disposing of male chicks.
Alternatively, the male eggs can be used by pharmaceutical companies to produce
vaccines. Eggs injected with viruses at 11–12 days’ incubation are used to grow and
multiply virus particles that are then processed into vaccines. Influenza vaccines are
routinely grown in fertilised eggs.

Discussion
1 What is a gene marker and how can it help reduce the number of day-old chicks
that must be disposed of?
2 Research how male layer eggs can be used in vaccine production.
3 Brainstorm as a class other potential solutions to reduce the number of male
chicks being culled. Prepare a report describing one of those ideas in more detail. Vaccine production with eggs
 360 AG TECH FOCUS 9780170443111

Rearing sheds
brooder a heating device Day-old females are transported to rearing sheds. The chicks are placed under brooder lamps
used to simulate conditions for the first five weeks to keep them warm. After this age, they are able to regulate their body
under a sitting hen
temperature.
Layer housing
At 16-18 weeks, the chicks (now called pullets) are transferred to layer housing. Within a few
clutch the number of eggs weeks they will start laying eggs. Usually a hen will lay one egg per day for three to eight days
laid on consecutive days then have a break. The number of eggs a hen lays in a row is called a clutch.
Culling
moult the loss and After approximately ten months, the layers will moult, signalling the end of the first laying
replacement of a chicken’s season. Their feathers will fall out and be replaced. Laying will cease during this period. Hens
feathers, usually associated
with shortening of day length; are sometimes culled at their first moult when they stop laying eggs. They can be kept for a
egg production ceases until second laying season but usually produce 10–30% fewer eggs.
moulting has finished
Meat production cycle
Meat chickens are also hatched in

Shutterstock.com/branislavpudar
incubators at a hatchery but are
not sexed because both males and
females are grown for meat. After
vaccination, they are transported
to growing farms where they are
placed under brooder lamps.
Meat chickens have been
selectively bred to grow much faster
than layer birds so, within 30 days,
some will have already reached
their target weights for processing.
Ideal carcase weights depend on
Figure 13.7 Meat chicks at the hatchery
what the chicken is to be used
for. Birds used for the production of fillets, for example, are usually left to grow larger and are
processed as late as 65 days.
Some of the chickens are harvested at any one time in a process called ‘thinning out’. Up to
five batches of chickens will be harvested this way from each shed. After the last chickens have
been harvested, the shed is cleaned and prepared for the next batch of meat chickens.

Hatchery
Fertile All day-old
eggs Eggs placed in incubator Vaccination, chicks
males and
Hatching:
Setting: 18 days females kept
3 days

Breeding farm Growing farms
Roosters and hens Barn
housed together to
produce fertile eggs Free range

Figure 13.8 The production cycle of meat birds
9780170443111 CHAPTER 13 – POULTRY 361

INCUBATING AND CANDLING EGGS

CHAPTER 13
PURPOSE
To monitor the development of eggs in an incubator.

© JP Ventures LLC & Incubator Warehouse.
LET’S ENGAGE

Day 3 Day 6 Day 8

Day 10 Day 15 Day 19
Figure 13.9 Egg candling highlights the development of a chick inside the egg.

days. Place the egg over a small
RISK ASSESSMENT hole in a cardboard box and use a
smartphone flashlight to illuminate
Incubators can harbour germs the egg from outside the box. The egg
that may cause disease in can be viewed through an eye-hole
humans. Make sure to wash cut into the top of the box.
your hands before and after
4 During the last three days, increase
handling eggs.
the humidity by placing a pan of
extra water on the floor of the
MATERIALS incubator. Remove any turning
Fresh, fertile eggs devices at this time.
Incubator 5 At 21 days, place hatched chicks in a DS
Candling equipment OR smartphone brooder with food and water.
and cardboard box Data scenario
Homework

DISCUSSION Investigate the relationship
METHOD 1 Make sketches of the changes between Egg size and
hatchability by completing the
1 Use fresh (less than one week old), in the eggs during development. data scenario on NelsonNet.
clean, fertile eggs that have been Compare your sketches with the
turned daily before incubation. video, ‘Development of a chick’.
2 Set up the incubator according to the 2 Did all the eggs develop? During
manufacturer’s instructions. candling, what changes did you
3 Candle eggs before placing in notice to the eggs that didn’t Development of a chick

incubator, then every two to three develop?
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Systems
Most poultry enterprises are intensive, meaning animals are kept at high stocking rates in
relatively small areas.

Layer systems
Cage production
Conventional cage production involves groups of between four and 20 hens housed in stacked
cages inside large sheds, each containing up to 100 000 birds. Each bird must have a minimum
of 550 cm2 of floorspace (roughly the size of this book).
Feed and water are delivered automatically and eggs roll along the sloping floor to
collection trays at the front of the cage, keeping them clean and free from damage. Manure is
collected and moved along on conveyer belts to avoid soiling the cages below.
Consumer concerns about animal welfare have reduced the popularity of this production
system. Although hens housed in cages are unable to express some of their natural instincts and
behaviours, they have lower rates

Shutterstock.com/TTstudio
of mortality and cannibalism than
other production systems. Hens
housed in cages are also safe from
potential predators.
Furnished cages are a new,
more bird-friendly version of cage
production. These cages are fitted
out with perches, nesting boxes
and areas for dust bathing.
Barn production Figure 13.10 Cage egg production
Barn production involves up to 30 000 birds being kept indoors in large sheds. Each bird is
required to have a minimum of 800 cm2 of floorspace. Birds are free to roam around the shed
litter poultry bedding and have access to nesting boxes in which to lay their eggs. Flooring is composed of litter, wire
material, often composed of
mesh or slats. Some barns also have perches.
sawdust, rice hulls or straw
Barn production is more expensive than cage systems, and eggs must generally be washed
due to soiling. Birds are also more likely to die or suffer from injuries due to cannibalism. They
are, however, safe from predators.
Free-range production
In free-range production, hens
Alamy Stock Photo/Adrian Sherratt

are kept in sheds similar to those
used in barn production but given
free access to outdoors during
daylight hours. According to the
Watch free range chickens in 2018 Australian definition of free-
real time with the Sunny Queen
Chooktracker.
range production, stocking rates
must not exceed 10 000 birds per
hectare (equivalent to each bird
having 10 000 cm2 of floorspace).
This is high compared with
international standards, where
free-range systems are often Figure 13.11 Free-range egg production
limited to below 2500 birds per
hectare.
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Free-range systems are more expensive than cage or barn production, and eggs must be

CHAPTER 13
washed due to soiling. Birds also suffer higher rates of mortality and cannibalism, and may be
prone to attack from predators.
Pastured production
In pastured production, hens are

Shutterstock.com/TFoxFoto
housed in purpose-built trailers
or caravans and have free access to
the outdoors. Stocking rates are
much lower than other systems,
and birds are regularly moved to Watch the Landline epsiode
new pastures. Just like free-range about pastured egg production.

hens, pastured hens are able to
express a full range of natural
behaviours. However, this is an
expensive production system and
can be associated with higher
rates of cannibalism and mortality. Figure 13.12 Pastured egg production with a maremma dog
Predators are also a problem. keeping guard
Electric netting is used to keep hens in and predators out, and maremma dogs are often kept as
guardians to protect the flock.
DID Maremmas are used as
WS

Meat bird systems YOU guardian dogs for chickens, Homework

KNOW lambs, goat kids and even
Camden Park Poultry farm
fairy penguins!
Barn production grows meat chickens for a large
processing company. Investigate
Meat birds can be housed in large their business by completing

Alamy Stock Photo/FLPA
the NelsonNet worksheet.
sheds, similar to those used for
barn production of layer birds.
Up to a dozen or more sheds
may be present on the one
farm, with each shed measuring
150 metres or more in length.
Meat bird stocking rates are
calculated per kilogram of bird,
which means that more young
meat birds can be housed in a
DS
given space than older, larger
Figure 13.13 Barn production of meat birds Data scenario
birds. Thinning out the flock as Homework

Explore how male and
they grow means that producers can avoid exceeding maximum stocking rates as the birds get female meat chicks grow by
bigger. Depending on the type of shed, meat birds can be stocked at a rate up to 40 kg/m2. investigating the data scenario
Meat bird growth rates on
NelsonNet.
Free-range production
Birds are allowed access to the outdoors through ‘pop holes’ as soon as they are old enough to
withstand outside temperatures. Free-range producers generally stock their barns at a lower rate than
for barn production to compensate for the increased difficulty in controlling climate in these open
barns. Lower stocking rates also allow the birds to move around and find pop holes more easily.
Certified organic
Organic meat chickens must only receive certified organic feed. They also must not receive
vaccinations (unless legally required) or certain medications, including antibiotics. Certified
organic meat chickens can be raised in barn or free-range conditions.
364 AG TECH FOCUS 9780170443111

RSPCA-approved meat systems
Birds must be housed at a lower stocking density and must have access to perches and other
enrichment objects, such as things to peck. Producers must also use approved lighting regimes
and bedding materials.

LET’S REVIEW

LOOKING BACK
1 Define the following terms: brooder, incubator, clutch, moulting, thinning out and litter.
2 Describe three systems of layer and meat production.
3 Why would free-range, barn and pastured eggs require washing, but not cage eggs?
4 Outline how layer and meat bird stocking densities are calculated.
5 Why are meat birds thinned out rather than harvested all at the same time?

FOR YOU TO DO
1 Construct a table to compare the following features of cage, barn, free range and
pastured egg production systems: minimum space per bird, cost of production,
washing eggs due to soiling, mortality (death) rates, cannibalism rates, exposure to
predators and ability to express natural behaviours.
2 Analyse the benefits of keeping laying hens for a second season, compared with culling
after moulting and breeding replacement layers.
3 Investigate the types of eggs available at the supermarket. For each type, make a
record of: brand, price, production system and stocking density (for free-range and
pastured eggs).
4 a Survey parents and teachers regarding their knowledge and attitude towards barn,
free-range and organic chicken meat production. Questions could relate to which
type of chicken they eat, animal welfare and the cost of chicken meat.
b Conduct the same survey with your peers.
c Compare your results. How did age affect your results?

TAKING IT FURTHER
1 Visit the Australian Eggs website to find out more about different production systems.
Australian Eggs
2 Investigate turkey farming in New Zealand.
3 What other birds are farmed in Australia? Research this question, choose a bird and
describe the production system. Make sure to include a flowchart detailing the system
in your answer.

Turkey farming

13.4 Management

Environmental management
Distribution of poultry farms
Poultry farms have traditionally been located near major towns or cities to reduce the cost
of transport to markets and allow access to services such as electricity. As cities have grown,
increasing land values and environmental complaints about noise and pollution have put
9780170443111 CHAPTER 13 – POULTRY 365

poultry farms under pressure. More farms are now being set up in regional areas close to grain

CHAPTER 13
growers, to reduce the cost of feed.

Climate
Temperature, airflow, humidity and air quality need to be monitored and controlled. These
factors can vary over short distances so it is important that the microclimate around the birds is
measured and assessed.
How climate is managed depends on the stage of production. During incubation, microclimate the climate
temperature is kept at 37.4–37.6°C but relative humidity is increased during the hatching period. in a very small area, which
can vary greatly from
This helps to avoid chicks sticking to shells as they hatch. Similar conditions can be created in a
the overall climate of a
small incubator by placing a pan of water in the base during the last three days. larger area
During brooding, the temperature needs to be gradually reduced over the first five weeks.
This can be achieved by raising brooder lights higher each week. In large sheds, brooder guards WS
are used to keep the chicks near lights. The guards are then gradually moved further out to
Homework
allow chicks access to more of the shed.
Learn more about temperature
Chick behaviour can be used to assess brooder temperature. Chicks will huddle together requirements for chicks by
under heat lamps if too cold, and pant and spread their wings when too hot. completing the worksheet
Brooder temperatures for
chickens and turkeys on
NelsonNet.
Temperature too high Temperature correct

Chicks are silent. Chicks are evenly spread.
Chicks pant and wings droop. Chirping indicates contentment.
Chicks move away from brooder.

Temperature too low Draught

Chicks crowd around brooder. Brooder requires investigation.
Chicks loud and distressed. The brooder may be influenced
by uneven flow of air, light
or external noises.

Figure 13.14 Temperature-related brooder behaviours

Layer and meat chicken housing is ventilated to keep temperatures between 20–24°C.
At cooler temperatures, birds will start using food energy to keep themselves warm. At higher
temperatures, birds have lower weight gain, poorer shell quality and lighter egg weights.
Foggers, fans and sprinklers can be used to keep temperatures down in hot weather.
Ventilation also reduces the build-up of dangerous gases such as ammonia, carbon dioxide
and sulphur dioxide. Some gases are denser than air and sink to the ground. In shed situations,
this can lead to dangerous conditions at bird height.
366 AG TECH FOCUS 9780170443111

Naturally ventilated sheds
Traditional barns and sheds have sides that are partially open with wire netting. Large curtains
are raised and lowered to manipulate the temperature and ventilation rate. Roof vents and
ceiling fans are also used, and the chickens are misted to increase evaporative cooling. Naturally
ventilated sheds are cheaper to run and maintain, but are not as effective at maintaining
optimum climatic conditions.
Tunnel-ventilated sheds
One end of the tunnel-ventilated shed is fitted with large fans that draw air through the
shed from the other end, through cooling pads. Temperature sensors adjust the fan rate as
often as every three minutes. These sheds use more electricity and are more expensive to
maintain. However, they are very effective at maintaining an optimum shed environment.

ASSESSING BROODER CONDITIONS
PURPOSE
To regularly assess the microclimate inside a brooder to ensure chick health and
comfort

RISK ASSESSMENT
LET’S ENGAGE

Brooder lights can cause burns. Take care when taking measurements near lights.
Wash hands before and after this activity.

MATERIALS
Brooder with chicks
Thermometer

METHOD
1 Assess the temperature at various times during brooding. Choose a spot in the
middle of the brooder away from direct heat.
2 Assess the behaviour of the chicks. Copy the table below and record your
observations.

Age (days) Temperature Temperature of Behaviour of chicks
requirement (°C) brooder (°C)
0 34
7 30
14 26
21 22
28 20

DISCUSSION
1 What adjustments are needed to be made to the heat source during brooding?
2 Describe the behaviours of the chicks when the temperature was too warm
or too cold.
3 How could brooder temperature be monitored in large-scale enterprises?
9780170443111 CHAPTER 13 – POULTRY 367

Enterprise management

CHAPTER 13
Breeding and genetics
Commercial layer and meat birds are the result of several generations of careful breeding.
They possess a combination of excellent production traits inherited from specifically selected
parents, grandparents and great-grandparents. Hybrids look and behave in predictable ways
and are very similar to each other. This is important because commercial egg producers want
their eggs to be identical. Meat producers need birds that grow predictably and produce easily
processed carcases.

Oviduct
Shell
Ovary Fimbrium gland
Magnum
Isthmus or uterus
Infundibulum Vagina

Egg turns
around in
cloaca before
being laid

Next yolk
released
Cloaca
in 1 hour

Ovum fertilised, Albumen Membranes Shell
chalazae added added formed added

23–26 hours
Figure 13.15 The reproductive organs of a hen

Breeder farms house breeding hens and roosters together and collect eggs for incubation. cloaca the body cavity
of a hen or rooster
Eggs are produced in the hen’s reproductive tract, as shown in Figure 13.15. containing the ends of the
digestive, reproductive and
DID Roosters do not have a penis. Mating involves a cloacal kiss where the rooster
urinary tracts

YOU and hen press their cloacae together to transfer sperm.
KNOW WS

Homework

Learn more about eggs by
completing the worksheet
AG IN FOCUS Chicken eggs on NelsonNet.

BREEDING MEAT CHICKENS
Identify
The chickens we eat are actually the fourth generation of a breeding program that
continuously supplies new meat birds.

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Understand
Fertile eggs are imported Breeding meat chickens
from overseas and
hatched to produce Fertile eggs imported from
nucleus stock overseas
great- grandparent birds.
These birds are very
valuable and are kept in
breeder farms in isolated, Great-grandparents
strategic locations around
Australia.
The next generation
of chicks are transferred Grandparents are then mated
from the hatchery to with other grandparent lines
another breeding farm,
and the process is
repeated until the fourth
generation hatch. This Parent breeders
last generation of hybrids
are raised for meat.

Discussion
1 Discuss why great- Meat chickens
grandparent breeder
farms would be
located in isolated, Figure 13.16 The meat chicken’s family tree
strategic locations.
2 Breeding birds must be kept in optimal condition. Describe some of the ways
these birds would be cared for to ensure they are healthy and productive.

Nutrition
Digestive system Oesophagus

Chickens must swallow their food whole because
Crop
they have no teeth. The crop stores and softens Proventriculus
food before passing it down to the proventriculus, Gizzard
Pancreas
or stomach, where acid and enzymes are used for
chemical digestion. The ventriculus, or gizzard, is a Duodenum
Small intestine
strong, muscular organ that grinds the food. Grit is
fed to birds to help this mechanical digestion. Caeca Large intestine
The small intestine is the site of further
chemical digestion and the absorption of nutrients. Cloaca

Water is absorbed in the large intestine, then faeces Figure 13.17 The digestive system
are passed out of the cloaca. of a bird

Feeding
Birds need protein for growth and development, while carbohydrates and fats are important
energy sources. Layer birds must have high levels of calcium in their diet for eggshell
production. Birds housed indoors need additional vitamins and minerals because they do not
have access to sunlight or green feed. Hens housed in pastured and some free-range production
9780170443111 CHAPTER 13 – POULTRY 369

systems have access to a range of natural feeds, including insects and other invertebrates as well

CHAPTER 13
as a variety of plant material.
Poultry feed is usually based on a combination of ingredients including:
∙ cereal grains, such as wheat and sorghum (these are carbohydrate sources)
∙ protein meals, including oilseed and meat meals
∙ fats and oils, such as tallow and canola oil
∙ minerals and vitamins, including calcium and phosphorus.
The ingredients are mixed together to meet nutritional needs and are processed into
pellets, crumbles or mash at feed mills. Layers and meat chickens have very different nutritional
requirements.
Table 13.1 Nutritional requirements for meat chickens
Nutrients Starter (0–10 days) Grower (11–24 days) Finisher (>25 days)
Protein (%) 22–25 21–23 19–21
Energy (Kcal/kg) 3010 3175 3225
Calcium (%) 1 0.9 0.85

Table 13.2 Nutritional requirements for layers
Nutrients Starter (0–6 weeks) Grower (6–15 weeks) Point of lay (15 weeks–adult)
Protein (%) 20 17.0 16
Energy (Kcal/kg) 2860 2900 2850
Calcium (%) 1 1 2.75

INDUSTRY IN FOCUS

POULTRY NUTRITIONIST
Identify
Poultry nutritionists are animal scientists who formulate diets for birds in different
production systems. Knowledge of biology, animal behaviour, biochemistry and
economics is essential to this profession. Most poultry nutritionists have tertiary
qualifications (a university degree, at least) in animal or agricultural science.
When formulating diets, poultry nutritionists need to take into consideration
the nutritional needs of the birds, the type of stage of production and their taste
preferences. Diets need to be cost effective, so an understanding of grain markets
and seasonal conditions is also important. Some poultry nutritionists work for large
poultry or feed companies, whereas others act as consultants to farmers, helping
them make the best decisions about how to feed their animals.

Discussion
1 Outline the role of a poultry nutritionist.
2 What qualifications do poultry nutritionists need?
3 A number of factors need to be considered when formulating a poultry diet.
Describe the factors and explain why these factors are important.
4 Design a nutritionally balanced feed for chickens at two different stages of
development using an online ration tool.

Ration tool
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Housing
Artificial light is used to manipulate egg production and growth rates. Hens generally lay more
eggs leading up to summer as day length increases. Artificial lighting can be used to simulate
these conditions.
Most layer birds are exposed to 15 hours of light per day. This can be achieved by having
timed lighting before sunrise and after sunset in free-range systems or providing artificial light
for the entire 15-hour period in cage and barn systems.
Meat birds are exposed to up to 23 hours of light per day to encourage feeding. Research
suggests there may also be a link between the colour of the light and the behaviour and growth
rates of chickens.

DID Lights are kept dim for meat chickens because this makes them docile and
YOU calm.
KNOW

LIGHT COLOUR AND GROWTH RATES
PURPOSE 3 Install the ceramic heat lamp and
To determine the effect of different light the cool tone LED lamp in the other
LET’S EXPERIMENT

wavelengths on poultry growth brooder.
4 Compare brooder temperatures and
HYPOTHESIS adjust the heights of the heat lamps
Do you think light colour will have an to achieve similar conditions in both
effect on growth rates? If so, do you brooders. Repeat this procedure
think red or blue light will be related to as the chicks mature and their
higher rates of growth? temperature requirements change.
5 Randomly select chicks from each
RISK ASSESSMENT brooder. Weigh them at regular
intervals and record weights in a table.
Brooder lamps can get very hot.
Ceramic lamps do not emit visible RESULTS
light but can still cause burns. 1 Construct a table to record the average
Wash hands before and after weight of each group over time.
handling chicks. 2 Draw line graphs to show average
growth rates over time for each light
MATERIALS group.
Two brooders or brooding areas
DISCUSSION
One ceramic brooder lamp
One infrared brooder lamp 1 Interpret your results. Was there a
difference between the groups?
One cool-tone LED lamp
2 How could you improve on this
Chicks
experiment to make it more reliable
Electronic scales and fair?
3 What recommendations would you
METHOD
give to producers regarding light
1 Set up the two identical brooders colour for brooders?
with feed, water and litter.
2 Install the infrared heat lamp in CONCLUSION
one brooder. Was your hypothesis correct, incorrect
or partially correct?
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Records and financial management

CHAPTER 13
Feed conversion ratio
Records allow farmers to make informed decisions based on data. Records of costs and
volumes of feed can be used to work out the feed conversion ratio (FCR) of meat birds. The
FCR is a measure of how efficiently an animal can convert feed into weight gain.
Weight of feed (kg)
Feed conversion ratio =
Weight gained (kg)
The lower the FCR, the more efficiently the food is converted to weight gain. Meat
chickens have FCRs of approximately 1.8, meaning they need to eat 1.8 kg of feed to gain 1 kg
in weight. The type of feed also affects the FCR. Cheaper feeds may be poorer quality and
contain less protein and energy than more expensive feeds, meaning more needs to be fed to
achieve target weights.

Gross margins

AG IN FOCUS

GROSS MARGINS FOR CAGE EGGS AND BARN EGGS
Identify
Gross margin analysis can be used to determine the relative profitability of different
enterprises. Cage and barn eggs have different production costs, but they also sell for
different prices.

Understand
Table 13.3 lists some of the most significant variable costs involved in producing cage
and barn eggs.
Table 13.3 Variable costs to produce one dozen eggs in cage and barn production systems
Variable cost Cage production ($) Barn production ($)
Feed 0.68 0.73
Replacement pullets 0.21 0.27
Labour 0.04 0.10
Energy 0.03 0.03
Medicine and other chemicals 0.05 0.06
Total variable costs ___________ ___________

Cage eggs generally sell for a lower price than barn eggs. In this example, we
will that assume that the cage eggs have sold for $3.50 per dozen, while the barn
eggs have sold for $4.50 per dozen. These figures represent the gross income for one
dozen eggs in each production system.

Discussion
1 Calculate the gross margin per dozen eggs for both cage and barn production
using the formula:

Gross margin = Gross income − Variable expenses

2 Which production system has the higher gross margin for one dozen eggs?

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3 Cage production can occur at a huge scale, with up to 100 000 birds in a shed.
Barn production systems usually house up to 30 000 birds per barn. How many
more eggs can a cage egg farmer produce from one shed, compared with a
barn producer?
4 Explain why, even though barn production has a higher gross margin per dozen
eggs, cage production is often more profitable.
5 What might be a better way to measure gross margins, rather than per
dozen eggs?

LET’S REVIEW

LOOKING BACK
1 Why were poultry farms traditionally near towns or cities?
2 Identify different ways temperature can be adjusted in a brooder.
3 Why is it important to keep birds at optimum temperature?
4 Compare naturally ventilated and tunnel-ventilated sheds in terms of their energy use,
maintenance and effectiveness in controlling shed climate.
5 Contrast the nutritional requirements of layers and meat birds at different stages of
production and explain these differences.

FOR YOU TO DO
1 Calculate the feed conversion ratio of your brooding chickens.
2 Examine bags of feed used for the school poultry. Determine what stage of production
they are for and compare the nutritional contents and ingredients.
3 Robots have many possible roles in poultry production. Identify one issue in poultry
production and design a robot to address the problem. Possible issues include feed
waste and spoilage, identification of sick or injured birds, or environmental enrichment
of cage and barn systems. Make a (non-working) model of your robot using recycled
materials and present it to your class.

TAKING IT FURTHER
1 Assess the school’s poultry housing. Examine climatic and housing factors, including
the susceptibility of the school birds to predators.
2 Draw up plans for a new and improved poultry house for the school’s chickens.
3 Investigate sanitation robots and their use in the poultry industry. Compare the
effectiveness of sanitation robots and human workers in keeping poultry sheds clean
and disease-free.
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13.5 Pests and diseases

CHAPTER 13
Pests
External parasites
WS
Lice and mites are common external parasites of chickens. Lice feed on skin scales, feathers and
scabs. They can survive for up to a week in the environment, especially in litter. Mites are blood Homework

suckers and can survive even longer off their host. Find out about red poultry mites
by completing the worksheet
Integrated pest management (IPM) is used to control lice and mites. IPM uses a variety Integrated pest management for
red poultry mites on NelsonNet
of different methods to control pests to avoid economic loss and reduce the likelihood of
resistance building up in pest populations.

Table 13.4 Integrated pest management for lice and mites
Chemical controls Physical controls Cultural controls Biological controls
∙ Insecticides such ∙ Destroy or remove ∙ Examine birds ∙ Predatory mites
as permethrin any boxes or regularly. that eat chicken lice
containers infested ∙ Quarantine new and mites.
birds have used. and infested birds.
∙ Exclude wild
birds that may be
infested.

Internal parasites
Coccidiosis is a gastrointestinal disease caused

Alamy Stock Photo/The Natural History Museum
by coccidia protozoa. These small single-celled
organisms damage the lining of the gut wall, causing
bloody diarrhoea. Infected birds are often hunched
up with their feathers fluffed due to pain. Mild
infections may cause no signs, and birds might
become immune to the parasites. However, young
chicks and birds that are stressed or otherwise ill are
very susceptible to coccidiosis.
The coccidia oocysts can be spread by direct oocysts small capsules
containing the reproductive
contact and through infected faeces. They are coated
cells of protozoal organisms
with a tough wall and can survive for long periods
in the environment. Cleaning and disinfection of
sheds between batches of chickens is important in
Figure 13.18 Electron micrograph image
eliminating coccidia oocysts. Some chicken feeds of a poultry mite
contain a coccidiostat, which is a medication that
helps control coccidiosis.

Diseases
Marek’s disease
Marek’s disease is caused by a virus that enters via the respiratory tract. Affected birds may
become paralysed, display neurological signs and develop tumour-like lesions on their
internal organs and feather follicles. Once infected, birds are carriers for life, shedding the
374 AG TECH FOCUS 9780170443111

highly infectious virus in their feather dander. Marek’s virus can survive for months in the
environment but cannot be transmitted from a hen to her chick through the egg.
There is no treatment and infected birds should be culled. A vaccine against Marek’s disease
is often given to new chicks at the hatchery. The vaccine does not prevent infection with the
disease but does reduce the amount of virus shed into the environment.
Marek’s disease can be spread via contaminated clothing and vehicles, so on-farm
biosecurity is an important preventative.Visitors to poultry farms should wear disposable
overalls, chicks should be reared separately and disinfection of sheds should be carried out
between batches of chickens.

Newcastle disease

Shutterstock.com/marcovarro
Newcastle disease is caused
by a virus and infects a range
of birds including chickens,
turkeys, pigeons and parrots.
It causes respiratory signs
including shortness of breath,
as well as diarrhoea, collapse
and death. Most birds infected
with Newcastle disease die,
but those who survive the
longest usually show nervous
system signs including twisted
Figure 13.19 Layer hen suffering from Newcastle disease
necks.
The virus is highly contagious and spread via direct contact with infected birds.
Contaminated equipment, carcases, water, food and clothing are also potential sources of
infection.Viral particles are destroyed by sunlight, heat and acid, but can survive for weeks in
cool, contaminated sheds or in manure.
Australia was declared free from virulent Newcastle disease in 2001, although there have
been minor outbreaks of mild strains since then. Newcastle disease is a notifiable disease,
meaning that there is a legal obligation to inform authorities if birds are known or suspected to
be infected with the virus.
Outbreaks are managed according to the National Disease Management Plan, with
slaughter of exposed or infected birds and disposal of infected products. Strict quarantine and
movement controls are also placed on areas where suspected or confirmed cases have been
reported.Vaccination of commercial flocks is compulsory in Australia. Newcastle disease has not
been reported in New Zealand.

DID New Zealand is the only country in the world free of the ‘big three’
YOU bird diseases: Newcastle disease, avian influenza and infectious
KNOW bursal disease.
9780170443111 CHAPTER 13 – POULTRY 375

LET’S REVIEW

CHAPTER 13
LOOKING BACK
1 How do lice and mites feed on chickens?
2 When are chickens most vulnerable to coccidiosis?
3 Describe the signs of Marek’s disease and Newcastle disease.
4 Give three examples of biosecurity measures that can be used to prevent poultry pests
and diseases.

FOR YOU TO DO
1 Examine the school chickens for signs of lice and mites.
2 Discuss the advantages and disadvantages of using integrated pest management
rather than relying solely on chemicals.
3 Examine chicken feed from the agricultural plot to determine whether it contains
coccidiostats.

TAKING IT FURTHER
1 Research one other pest or disease of chickens and write a report outlining signs of
infection, prevention methods and treatment options.
2 Assess the school’s poultry housing in terms of biosecurity and disease prevention.
Use the Farm Biosecurity app to determine the school’s biosecurity risks. Farm Biosecurity app

13.6 Social and ethical issues

Are cage eggs cruel?
Many consumers are concerned about the welfare of hens in cage production. The most
common concern is that birds are unable to express natural behaviours. Chickens exhibit a
number of natural behaviours including preening, foraging, nesting, dust bathing and perching.
Chickens also have social behaviours, including a pecking order. Birds establish social
hierarchies and can recognise up to 30 individuals in their group. Once they know their
place, pecking and fighting is rare. However, if new birds are introduced or if group numbers
exceed 30, birds can be caught in a continuous battle to establish their pecking order. Hens in
cage production are kept in a small groups and can establish a stable pecking order. Barn, free-
range and pastured birds often display more fighting and sustain more injuries due to continual
social stress. Rates of cannibalism and death are also higher.

LET’S DISCUSS
1 Which do you consider more important: the ability to express natural behaviours or
safety from injury and stress?
2 Is cage or free-range production more ethically acceptable?
376 AG TECH FOCUS 9780170443111

Beak trimming and blinders
Beak trimming involves removing part of the top beak to control feather pecking, injury and
cannibalism. It is performed on day-old layer chicks, and then is sometimes repeated at two
to three months of age. Beak trimming can be painful and can cause problems with feeding.
Blinkers, blinders and peepers are devices that are placed on a bird’s beak to interfere with their
vision and deter them from feather pecking. Red contact lenses have also been used to reduce
aggressive behaviour, but can lead

Shutterstock.com/Quirky China
to irritation, infections and eye
damage.
The Model Code of Practice
for Poultry states that beak
trimming should be avoided if
possible, and producers should
select birds for reduced feather
pecking and aggressive behaviour.
Contact lenses are not to be used,
and blinkers must be avoided in
cage systems and when nesting
boxes are off the ground. Figure 13.20 Blinkers can be used to reduce feather pecking.

LET’S REVIEW

LOOKING BACK
1 Identify some natural chicken behaviours.
2 Which behaviours are chickens unable to express in cage systems?
3 Why is beak trimming performed and what are the alternatives?

FOR YOU TO DO
1 Observe the school chickens and record the occurrence and frequency of natural
behaviours.
2 Conduct a class debate on the ethics of cage production.
3 Research designs of blinkers and design some human-sized examples for students to test.

TAKING IT FURTHER
1 Investigate furnished cages and other methods of environmental enrichment for
cage hens.
2 Research one other ethical issue that is addressed in the Model Code of Practice.

Model code of practice
9780170443111 CHAPTER 13 – POULTRY 377

13.7 Sustainability

CHAPTER 13
Sustainable practices and methods
Using chickens to repair soil

INDUSTRY IN FOCUS

LACHIE’S FARM FRESH EGGS

Credit: Jo Broad

Figure 13.21 Lachie Broad with his maremma, Ellie

Identify
Lachie Broad runs a pastured egg business in Bodalla, on the NSW south coast. His
hens are housed in a purpose-built solar-powered chicken caravan with roosts and
nesting boxes. Once laid, eggs roll from the sloping nesting boxes directly onto a
conveyer belt, reducing soiling of shells and making collection easy.
The caravan is moved in rotation around the family’s dairy farm where the hens
have constant access to nutritious irrigated pasture. Lachie sells eggs at a number
of local farmers markets and in some retail businesses.

Understand
When hens are placed on pasture after dairy cattle, they scratch and distribute cow
manure, as well as eat insects, including parasites and fly larvae. They also produce
their own manure that adds to the soil organic matter and provides nutrients for
plant growth.
Green feed such as pasture provides hens with chemicals called xanthopyhlls
that give egg yolks a deep yellow to orange colour. Apart from producing attractive
eggs, pastured production allows hens to explore their natural environment and
express innate behaviours.

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Lachie’s maremma dog, Ellie, protects the flock from eagles and foxes. The
hens have bonded with their guardian dog and run straight to her if she barks a
warning.

Discussion
1 Explain the advantages of pastured production.
Watch the Landline episode 2 Draw a mind map to show interactions between the pastured hens and other
about another farmer using
pastured production to
enterprises and systems on Lachie’s farm.
regenerate the soil. How do 3 How has Lachie’s system dealt with some of the normal disadvantages of
their strategies compare to
Lachie’s?
free-range and pastured egg production?

The impact of feeding chickens
Feed is the most expensive input for poultry production and has the greatest environmental
impact. Selective breeding of meat chickens to have high growth rates allows farmers to use less
feed and reduce costs.
Compared with other farm Table 13.5 Feed conversion ratios of some farm animals
animals, chickens convert feed into Animal Feed conversion ratio
meat very efficiently. While it takes
Beef cattle (steers) 6.0
6 kg of feed to produce 1 kg of beef,
Lambs 5.5
the same amount of chicken meat can
Pigs 2.5
be produced with just 1.8 kg of food.
Chicken meat 1.8

LET’S DISCUSS
1 What inputs are used to grow, harvest and process cereal grains and oilseed crops for
feed production?
2 What are some possible environmental impacts of growing these crops?

Sustainable technology
Using wastes to improve soils and make energy
Soiled poultry litter can be used as a soil conditioner. If used appropriately, it is a rich source
of nutrients and organic matter. Some used litter is processed into pellets and sold as organic
fertiliser. Unprocessed litter is often purchased in bulk by other farms for pasture improvement.
Care must be taken when using bulk litter because it may contain animal proteins in the form
of spilled feed, feathers or even dead birds. It is illegal to feed animal proteins to ruminant
animals such as cattle and sheep due to the potential risk of disease, including mad cow disease
(Bovine spongiform encephalopathy).
biofuel fuel made from Poultry litter can also be processed and used as a biofuel. Spent litter is burned at
living things 400–500°C to produce carbon dioxide and methane gases. These gases can then be combusted
to produce heat and generate electricity. The power generated this way can be used to heat
sheds or run ventilation fans. The remaining solids can then be used as fertiliser or soil
amendments. Litter biofuel is a renewable energy source and an alternative to fossil fuels.
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Sustainable decision-making

CHAPTER 13
Cage eggs have smaller carbon footprints than free-range systems because the birds produce eggs
much more efficiently. In the short term, cage systems produce more eggs for less inputs using
less land. Soiled litter and other waste products from intensive systems such as cage production
must be disposed of appropriately. Poultry wastes that are disposed of inappropriately can lead
to long-term consequences such as contamination of soil and groundwater. Soiled litter and
manure can also release large amounts of greenhouse gases when left to decompose in piles.
carbon footprint the total
While free-range and pastured production uses more land to produce less, the greenhouse gas emissions
environmental impact is not a simple equation. Pastured egg production, for example, adds caused by an individual or
activity
poultry manure to the soil in the long term. Much of the carbon in the manure is then locked
up in the soil rather than being released into the atmosphere. Animal welfare advocates argue
that free-range chickens have a higher quality of life than caged hens and believe this should be
taken into account when comparing systems.

LET’S DISCUSS
1 Which is more important: efficient production or animal welfare?
2 Compare the short-term costs and long-term consequences o