2. Environment Temperature
Poultry housing should be weather-proof The body temperature of an adult chicken is
to provide protection from the elements 105-107˚F (40.6 to 41.7˚C). The thermo-
(cold, rain, wind, and hot sun) and pro- neutral zone is 65-75˚F (18-24˚C), which
vide warmth, especially during brooding. allows chickens to maintain their body
Housing should also provide good ventila- temperature. If the temperature is above
tion, as well as protection from predators. this zone, heat must be lost in some way.
Many innovative housing designs are used Chickens have no sweat glands. Since eat-
in alternative poultry production, including ing increases body temperature, chickens
fi xed houses with permanent foundations, reduce their feed intake during hot weather,
mobile houses, and simple shelters. and therefore gains will be less. Chickens
For information on small-scale housing, begin panting at 85˚F (29.4˚C) to help dis-
design, materials, construction plans, sipate heat, and drink more to avoid dehy-
see ATTRA’s Range Poultry Housing. For dration. A combination of high temperature
information on waterers, feeders, fencing, and high humidity is a problem, because
roosts, and nestboxes, see ATTRA’s Poul- panting does not cool them under these
try: Equipment for Alternative Production. conditions (1). In the U.S., heat is usually
Related ATTRA more of a problem than cold. Fast-growing
Publications The conventional poultry industry has
extensive information on large-scale hous- broilers are particularly susceptible to heat
Alternative Poultry ing, environmental control, and equipment stress due to their high level of production.
Production Systems Producers should provide abundant cool
and Outdoor Access
that can be used for large-scale free-range
or cage-free production. See Commercial drinking water in close proximity to the
Poultry: Equipment for Chicken Production Manual (1) or Exten- birds inside and outside.
Alternative Production sion materials. Detailed information on
In cold months, while the conventional
Range Poultry ventilation, lighting, and other types of
industry usually uses propane heaters for
Housing environmental control are available on
heating, many alternative poultry produc-
the University of Georgia’s (2) Poultry
ers do not heat houses, relying only on the
House Environmental Control Website at
body warmth of the birds for heat. How-
www.poultryventilation.com.
ever, birds tend to eat more in cold tem-
peratures, because they need more energy
Power to stay warm outside. It may be more cost-
While small porta- effective to heat the house instead of pay-
ble houses may not ing for more feed. Heaters, such as gas
use power, reliable brooders or heaters, can even be provided
power is important in small portable houses, with a gas tank
in large houses to mounted on a trailer to be moved along
power vent i lat ion with the house.
systems, fans, lights,
heat, motors for To modulate temperatures, insulation under
automated feeding the roof is important in any climate; insu-
systems, etc. Most lation in the walls is also helpful. Some
farms have electric- assurance programs in Europe require that
ity, but diesel gen- fi xed houses be insulated (3). During hot
erators can be used weather, insulation keeps heat from enter-
for power in a poul- ing, and during cold weather keeps heat
try house and are from leaving the building. The greater the
also useful for back- difference between the inside temperature
up power in case of and the outside temperature, the greater
an electrical outage. the need for insulation. Proper ventilation
A gas-powered hydraulic motor that augers feed in a will also help regulate house temperature.
house without electricity. Each house should have a thermometer
Page 2 ATTRA Poultry House Management for Alternative Production
3. to display the current temperature, and when this air leaves, it
temperature as well as takes moisture out of the house. (1)
the high and low tem-
In mechanical ventilation, positive and neg-
peratures in a daily
ative pressure systems use fans to direct air
period, and producers
into the house (positive) or exhaust air from
should pay attention to
the house (negative). The negative pres-
weather forecasts.
sure system is most common and controls
the air inlet to help mix the incoming fresh
Ventilation air with the air in the house. (1) Mechani-
Vent i l a t ion br i n g s cal ventilation is less appropriate for free-
fresh air into a poul- range houses because the doorways must
try house and removes be closed to maintain “static pressure.”
heat, moisture, and For more information see Appendix 1:
gases. (1) Ventilation Mechanical Ventilation.
designs may be nat-
ural or mechanical. Thermometers dis-
Most houses in alterna- play high and low
temperatures in a
tive poultry production period of time.
depend on natural ven-
tilation, because door-
Curtains can be lowered
ways are usually open to provide outdoor to provide natural ven-
access. There may also be additional air tilation.
inlets, side curtains, or large windows that
can be opened to allow more ventilation
in hot weather. Ridge vents in the roof or
“whirly bird” vents allow hot air to escape.
Natural ventilation makes use of the move-
ment of air (warm air rises and cold air
falls) and wind currents. A roof at least six
feet tall will allow sufficient height differ-
ential for cool air to enter through low air
inlets and warm air to escape through high Fans can help exhaust
vents. There is less control in natural venti- air and moisture out of
lation than mechanical. a house.
The reasons for ventilating during winter
and summer are different. During warm
months, the purpose is to remove heat and
control the temperature in the house, and
therefore large amounts of air are moved.
During cold months, the ventilation system
must remove moisture and gases, especially
ammonia, while conserving heat. This is
tricky because producers tend to keep This small mobile house
houses closed up tight to conserve heat. It is has an air inlet in the
done by controlling air inlets and is possi- end wall and a “whirly-
ble because warm air holds more moisture bird” vent on the roof to
allow air and moisture to
than cold air does. Therefore, during cold escape.
weather producers can bring small amounts
of air into the house with high moisture in
the air, allow the fresh air to heat to room
www.attra.ncat.org ATTRA Page 3
4. the light intensity is low, then the wave-
length is important. However, if light
intensity is high, then wavelength is not as
important (1).
Open windows help Birds need a dark period for good
increase natural health. They only produce melatonin—a
ventilation. hormone important in immune function—
during dark periods. Welfare programs
usually require at least four to six hours of
dark daily, with some of the organic pro-
grams requiring eight hours of darkness.
(4) Many alternative poultry producers
use only natural light and therefore have
a long dark period. Dark periods can be
especially helpful for fast-growing broilers
in the fi rst weeks of life to slow growth,
build frame, and reduce leg disorders.
(Baby chicks, however, need 24 hours of
A ridge vent allows air
and moisture to escape light the fi rst three days to ensure that they
from the top of the house learn to fi nd food and water.) In contrast,
for natural ventilation. the conventional poultry industry uses long
light periods to encourage feed consump-
tion and weight gain by fast-growing broil-
ers, because birds do not eat in the dark.
When birds have a dark period, they are
more active during the light period than
birds that have continuous light.
Lighting Light intensity is measured in foot-candles
(fc) in the U.S. (the amount of light emit-
Poultry are very sensitive to light. Light
ted by a standard candle at one foot away;
not only allows them to be active and
lux is a metric measurement). For example,
find their food, but it also stimulates
a brightly-lit store may be 100 fc while a
their brains for seasonal reproduction.
home is usually 10 fc. (2) Alternative poul-
Light is perceived through the eyes but
try production tends to use a higher light
can also be received by other receptors
intensity than conventional. Most welfare
in the brain, after penetrating the feath-
programs require at least 1 fc. Light inten-
ers, skin, and skull. Even blind birds
sity above 1 fc leads to increased activity,
respond to light. In the spectrum of vis-
which can reduce leg problems but results
ible light, blue light is relatively short
in decreased weight gains. (1) A curtain-
wavelengths, while red light is long (see sided house may have a light intensity of
Figure 1). Since red wavelengths are 200 fc or more when the sun is overhead,
longer, they are more able to penetrate but depends on cloud cover. (1) The con-
to the brain to stimulate activity and ventional industry typically keeps light
reproduction and even aggression. If intensity low in poultry houses to reduce
activity and gain weight more efficiently.
Figure 1. The spectrum of visible light (1) The conventional industry uses about 0.5 fc
or less, similar to a moonlit night, for broil-
425 475 525 575 625 675 ers and layers.
Violet Blue Green Yellow Orange Red Both conventional and alternative egg
producers use artificial lighting to stimulate
Page 4 ATTRA Poultry House Management for Alternative Production
5. production during days of declining natural breakage or simply suspend a bare
light, resulting in a more constant supply of bulb that will swing if hit
eggs. Small-scale producers often use 14 • Put a dab of petroleum jelly on the
hours of light for layers. Generally the light threads of the bulb to keep the con-
period should not be longer than the longest tacts from corroding and to keep
day of the year. Day length should not be mites and other tiny bugs out of the
increased for young growing pullets or they light sockets
will begin producing eggs too soon; like-
• If you use fluorescent, use the kind
wise, day length should not be decreased
with sealed ballasts, since the vents
for layers and breeders in production or
in vented ballasts let in moisture
they will stop producing eggs.
and dust. These are available from
Sunlight is a broad spectrum white light farm-supply businesses
and contains all the wavelengths of visible • Use a timer to control the light
light. Common types of artificial light are period, because if you forget to turn
incandescent and fluorescent. Incandes- the lights on, it can cause hens to
cent lights are a broad spectrum light with stop laying
S
a predominance of long (red) wavelengths. unlight is a
Fluorescent lights are a variable light spec- • Use a wired-in electromechanical
trum, depending on their manufacture. timer (rather than plug-in type), and broad spec-
Two types commonly used in poultry houses check it regularly, resetting it after trum white
any power outage light and contains
are “warm white” and “cool white.” Warm
white has a predominance of long yellow • Use permanent wiring when possi- all the wavelengths
wavelengths, and cool white has a predomi- ble (fi xed houses) of visible light.
nance of shorter blue to green wavelengths. • Use waterproof sockets: porcelain or Common types of
Fluorescent lights come in tube and com- plastic (not brass shell) artificial light are
pact forms. The 2700 K compact is similar
• Use heavy duty extension cords incandescent and
to the “warm white” and the 2700 K is sim-
for portable houses and cover fluorescent.
ilar to the “cool white.” Incandescent lights
connections to protect them from
are easier and less expensive to purchase the weather
and install, but fluorescent bulbs are more
energy-efficient, have a longer life, and can Adding the lights in the morning instead
be dimmed with special equipment. How- of the evening will allow a natural dusk for
ever, as the lamp ages, fluorescent lights the birds and allow them to choose their
lose lumen output. The life expectancy of roosts for the night, or a dimmer can be
incandescent bulbs is usually 1,000 hours; used to create dusk conditions. On a timer,
fluorescent is up to 20,000 hours. (1) it is necessary to make adjustments (usually
weekly) to keep the day length at a certain
Small flock producer Robert Plamondon (5) length. Instead of regularly adjusting tim-
in Oregon has the following recommenda- ers, Plamondon uses a dusk-to-dawn light-
tions for small growers. He uses incandes- sensing switch which will turn the light
cent lighting because he believes it holds off during the day (no waste of electricity)
up better than fluorescent under free-range and turn on at night. He turns lights off in
house conditions. the spring.
• Use a 60-watt incandescent bulb for In a house without electricity, batteries can
every 200 square feet of henhouse be used to power lighting, such as a 12-volt
• Use flat reflectors to maximize light battery. An inverter can be used if there
is a need to switch from DC to AC voltage.
• Clean/dust bulbs regularly Companies in the U.K. offer 12-volt light-
• Position light fixtures so people ing systems particularly for mobile poultry
or birds don’t run into them. Use housing (see www.roosterbooster.co.uk). A
a guard over the light to prevent solar panel can recharge batteries. Large
www.attra.ncat.org ATTRA Page 5
6. Amish poultry houses without electric- tried out various materials and have identi-
ity are sometimes lighted with Coleman fied some problems: hay and straw become
lanterns (which burn naptha gas) and slimy, chicks eat sawdust, wood chips are
kerosene lamps. costly, and hardwood shavings can splinter
and cause skin punctures. Litter material
should be high in carbon to prevent loss of
nitrogen and should compost well.
Litter is normally spread two to four inches
deep and maintained at 20 to 30 percent
moisture. Birds have a concentrated form of
waste called uric acid, which makes it possi-
ble to keep a lot of birds on litter, but mois-
ture can build up. If litter feels damp to
A 12-volt lighting system for small the back of the hand, it is probably at least
poultry houses. Photo 30 percent moisture. The house should be
www.roosterbooster.co.uk
Kerosene lights in a large poul- ventilated well to remove moisture in the
try house without electricity. air, and water leaks or sources of moisture
such as condensation from un-insulated
metal roofs should be avoided.
Litter High moisture in litter is very problematic,
Litter management is very important in resulting in cake or a nonabsorbent crust.
most poultry production systems. Floors in Caking especially occurs under waterers or
poultry houses are usually concrete, wood, other high impact areas. Wet litter causes
breast blisters and sores on the birds’ foot
or earthen, and litter is used to cover the
pads and hocks, and pathogens and para-
floor. Litter dilutes manure and absorbs
sites such as coccidia proliferate. In wet
moisture, provides cushioning and insula- litter, uric acid is converted by bacteria to
tion for the birds, and captures nutrients ammonia. Ammonia is a toxic gas that can
for spreading where desired outside. Lit- damage the respiratory system of the birds
ter is also a medium for birds to scratch and make them more susceptible to infec-
and is important for welfare. Birds are tions. Ammonia levels should not exceed
also raised on slat flooring through which
25 parts per million (ppm) in the house.
the droppings fall into a pit below and are
Levels can be measured with an ammonia
later removed. Keeping droppings dry will
meter, but these are expensive. Inexpensive
reduce odors and fl ies.
methods are ammonia strips, available from
Common litter mate- Micro Essential Lab, (6) or dräger tubes,
rials include soft available from Fisher Scientific. (7) Ammo-
wood shavings or nia measurements should be taken at bird
rice hulls. Other level on a regular basis and particularly at
materials that may finishing. Fly larvae also grow in wet litter
be suitable include and can be a nuisance.
sand, recycled news-
paper (no glossy
or colored inks for
organic production),
dried wood fiber,
peanut hulls, and
Corn cob litter.
chopped pine straw.
Small-scale poul- Ammonia levels can be accurately measured with gas
try producers have detection tubes. Photo www.raesystems.com
Page 6 ATTRA Poultry House Management for Alternative Production
7. including pathogenic bacteria like salmonella.
Poultry Litter Treatment (PLT), or sodium
bisulfite, is the most common litter treat-
ment. Aluminum sulfate is also used to
reduce ammonia release. These materi-
als are not permitted in organic produc-
tion. Soft rock phosphate can be used as
a litter amendment to control odor and to
reduce fl ies. Hydrated lime is not per-
Ammonia strips. Photo mitted in organic production to deodorize
www.microessentiallab.com
animal wastes.
Litter moisture guideline Used litter is removed from large houses
with machinery. In small houses, litter is
When a handful of litter is squeezed, the ball
should begin to break up when released. removed by hand, which is very labor-inten-
When the litter is too wet, it remains balled sive. After removal from the house, manure
up. When litter is too dry, it will not ball up. and litter are usually spread on pasture
C
and other agricultural land. In many areas, ompost-
Although conditions should be maintained poultry manure and litter are a great bene- ing the litter
to prevent cake, some producers rototill fit and add valuable nutrients such as nitro-
adds further
their litter during production, while the gen (N), phosphorus (P), and postassium
birds are present, to loosen cake. After (K) to the soil. Poultry manure has 3.84 value to the manure
loosening, cake should be removed. Tilling percent nitrogen, 2.01 percent phosphorus, because compost
the litter may cause a spike in ammonia that and 1.42 percent potassium on a dry basis. is an excellent soil
should be dissipated as quickly as possible (1) On a fresh basis, there is more moisture amendment.
through open windows or with fans. Accord- in the manure, which dilutes the amounts
ing to Virginia producer Joel Salatin, (8) at of nutrients. As a rule of thumb, the amount
a low stocking density, the bedding is tilled of manure is equal to the amount of feed
and aerated as fast as the birds manure and provided. (1)
does not cake. Tossing in whole grains may
Composting the litter adds further value to
encourage birds to scratch and till. Heavy
the manure because compost is an excel-
broilers are not as active at tilling litter
lent soil amendment. More carbon material
as layers.
usually needs to be added to increase the
Litter is removed after the flock is finished carbon to nitrogen ratio. During compost-
and the house cleaned. In meat bird pro- ing, ammonia is released to the atmosphere,
duction, the litter is often kept in place and which lowers the nitrogen in the final prod-
reused for several flocks. If re-used, cake uct. Organic standards for compost require
needs to be removed with a pitchfork or that starting carbon to nitrogen ratios be
decaking equipment. Salatin has used pigs between 25:1 and 40:1. See Appendix 2
to break up cake at the end of a flock. The for information on composting poultry litter.
litter should be top-dressed with fresh litter. Litter can also be composted in the poultry
The litter should not be reused if disease house after the birds have been removed.
occurred in the flock. Windrows are made in the house and the
litter is respread after composting. The
Litter treatments are added in the con-
building must be ventilated so that gases
ventional poultry industry to re-used litter
can escape.
to reduce the formation of ammonia from
nitrogen by lowering the pH. Typical poul- The manure/litter from poultry houses
try litter has a pH between 9 and 10. (9) has a natural tie to organic crop produc-
Ammonia release is low when the environ- tion. Synthetic fertilizers are not allowed
ment is acidic (pH is less than 7). Low in organic crop production; poultry lit-
pH will also inhibit microorganisms, ter has the advantage of being a natural
www.attra.ncat.org ATTRA Page 7
8. fertilizer (as long as synthetic materials are of composting or decomposition, it is not as
not added to it). Litter from birds fed efficient as the composting process
arsenic compounds is not permitted in described in Appendix 2. The amount of
organic production. decomposition that occurs depends on the
Unfortunately, in high poultry-producing amount of birds in relation to amount of lit-
areas, manure/litter has become a liability ter and temperature. The carbon to nitro-
because there is so much of it. Phosphorus gen ratio is not likely to be ideal unless
is a nutrient pollutant because it may end a lot of extra litter is added. Producer
up in runoff water, allowing algae to grow Joel Salatin adds enough litter to keep the
and contributing to water quality prob- carbon to nitrogen ratio at 30:1, but it is
lems. Litter/manure cannot be dumped on expensive. There may be some heat from
land without consideration of crop/forage decomposition, and ammonia gas is pro-
needs. Nutrient application from animal duced, so the house should be well venti-
waste is becoming more regulated in the lated. Salatin says the bedding pack must
U.S., and nutrient inventories are kept on be at least 12 inches deep to work. Com-
the farm. Regulations vary by state and
posting litter is rich in vitamin B12 , most
E
are phosphorus-based or nitrogen-based.
ffective likely due to the presence of microbes.
In European countries where there is lit-
Microor- tle land compared to dense human pop- Some poultry producers are interested in
ganisms ulations, the regulation is nitrogen-based beneficial microbes that may be present
(EM), biodynamic and is limited to 170 kg of nitrogen per in composting litter to help induce immu-
preparations, and hectare per year (equivalent to 149.6 lbs nity in birds, particularly during brood-
compost teas have of nitrogen per acre). (10) Best manage- ing. In fact, inoculating composting litter
ment practices are important in applying with microbes can facilitate management
been added to poul-
animal waste to land, such as incorporat-
try litter to provide of the litter as a biologically active, organic
ing litter instead of surface application,
a healthy, probi- vegetative buffer strips to capture runoff substrate in a slow process of decomposi-
otic environment, nutrients prior to reaching waterways, etc. tion. Effective Microorganisms (EM), bio-
In parts of the U.S., since litter should not dynamic preparations, and compost teas
enhance bioprocess-
be spread during the winter because the have been added to poultry litter to pro-
ing, reduce ammo-
ground is frozen or crops may only be fer- vide a healthy, probiotic environment,
nia, and reduce litter enhance bioprocessing, reduce ammo-
tilized in spring and summer, proper stor-
volume. age is required for litter. There are use- nia, and reduce litter volume. ATTRA
ful Extension publications on poultry litter has more information on EM or see
application. www.emtrading.com.
An alternative type of litter management
is composting litter while the birds are in Air quality
the house in order to reduce the volume A poultry house of any size can have poor
of litter and create a healthy environment. air quality if ammonia and dust levels are
This process, called “composting litter,” high. In large houses, air emissions to
has received little scientific attention since the outside are an issue for environmen-
the 1950s. It usually starts with at least
tal air quality. Tree shelter belts have been
six inches of litter. The poultry till and
used around houses as a way to capture
aerate the litter or the litter may be tilled
with machinery. Thin layers of fresh litter emissions. Again, keeping litter dry helps
are added with new flocks or if the litter reduce ammonia. In addition to ammo-
becomes wet. Small flock producer Rob- nia and dust levels, it is also important to
ert Plamondon uses this technique and monitor hydrogen sulfide, carbon dioxide,
removes only half the litter at a time, when and carbon monoxide levels, especially in
the accumulation becomes too much for the large houses. Free-range systems have the
house. Although composting litter is a form advantage of fresh air.
Page 8 ATTRA Poultry House Management for Alternative Production
9. Brooding Environment and A brooding house must have good ventila-
tion while preventing drafts. Although some
Management small producers use a dedicated purpose-
Brooding is a critical period for poultry. built structure or building, many improvise
New chicks can’t maintain their own tem- with an outbuilding. Brooder guards (usu-
peratures, so they are usually brooded ally cardboard) stop floor drafts.
until they are fully feathered. In natural
Types of brooders include:
brooding, the mother hen provides heat. In
artificial brooding, heat is provided by an • Heat lamps
external heater. • Hovers
Large-scale broiler producers usually brood • Space heaters
in the same building where the birds will • Battery brooders
be kept to market age, which is “one-stage
production.” Layers and turkeys usually Heat lamps. Many small poultry produc-
use a “two-stage” system in which a dif- ers use spot brooding in a variety of set-
ferent growing facility is used after brood- ups with an electrical heat lamp. Heat
B
ing. Small producers often use two-stage lamps are generally used above a box that
keeps the chicks close to the heat source rooding can
production; they brood in a central build-
and reduces drafts. This set-up is usually be “spot-
ing and then move the birds out to small
placed in a residence or an outbuilding. brooding”
portable houses on pasture after brooding.
According to Plamondon, a 250-watt heat vs. “whole house”
The brooding building may be located close lamp suspended 18-24 in. over the brood-
to home so the producer can keep a close ing area, completely surrounded by a draft
brooding. Spot-
eye on the young chicks. However, mov- guard 18-24 in. high, will brood 75 chicks brooding heats a
ing birds to a new facility after brooding is at 50˚ F minimum room temperature. This localized area, while
labor-intensive and a source of stress for the method is dependent on the presence of whole house brood-
chicks. Brooding in the field in small por- an effective draft guard. Many hardware ing heats an entire
table houses reduces the need for moving stores carry heat lamps. Rocking T Ranch room.
chicks and allows early access to range, but and Poultry Farm maintains a website with
field brooding requires an insulated house, information on homemade brooders at www.
small brooders, propane tanks, and battery poultryhelp.com/link-incbrood.html.
run lights in each house.
Hovers. Hovers are brooders with a can-
Brooding can be “spot-brooding” vs. “whole opy to keep warm air close to the ground to
house” brooding. Spot-brooding heats a warm chicks. Hovers are usually suspended
localized area, while whole house brooding from the ceiling. In large-scale production,
heats an entire room. This is also called hover brooders often have an umbrella or
“cool-room” vs. “warm-room” brooding, pancake shape and are fueled by propane
respectively. In the past, very cold-room or natural gas. Again, cardboard brooder
brooding was practiced in drafty barns guards provide protection from floor drafts.
or other out-buildings. The brooder was Farmtek (11) carries propane brooders in
surrounded with curtains or insulation to various sizes.
prevent heat from being lost to the room. It Standing hovers are placed on the floor
fell out of practice as brooding and poultry above the birds. On his website (www.
production moved to large poultry houses, plamondon.com), Plamondon describes a
and brooders of this type are no longer box-shaped, standing hover that is insulated
available. Robert Plamondon has been and heated by electric lamps. It was devel-
a leader in the U.S. in providing informa- oped in the 1940s by the Ohio Experiment
tion to small-scale producers who use out- Station and was popular for small flocks.
buildings and need good cold-room brood- It was designed for brooding under farm
ing technologies, including homemade conditions—in drafty barns and in porta-
insulated brooders. ble houses on range. It can be insulated
www.attra.ncat.org ATTRA Page 9
13. References 10) European Union. 1991. Council Regulation
(EEC) No. 2092/91 of 24 June 1991 on organic
1) Bell, Donald D. and William D. Weaver. 2002. production of agricultural products and indica-
Commercial Chicken Production Manual. 5th tions referring thereto on agricultural products
Ed., Kluwer Academic Publishers. 1416 pp. and foodstuffs.
2) University of Georgia Cooperative Extension Service http://europa.eu/eur-lex/en/consleg/pdf/1991/en_
Poultry Science Department 1991R2092_do_001.pdf
Poultry Science Building Accessed 7/2006
Athens, GA 30602-2772, 706-542-1827 FAX 11) Farmtek
poultry@uga.edu
1440 Field of Dreams Way
3) Assured Chicken Production Dyersville, IA 52040
Unit 4b, Highway Farm 800-327-6835
Horsley Road 800-457-8887 FAX
Downside
Cobham 12) Plamondon, Robert. 2003. Success with Baby
Surrey Chicks. Norton Creek Farm Press, Blodget, OR.
KT11 3JZ
13) Murray McMurray Hatchery
01932 589800 telephone and FAX
www.assuredchicken.org.uk P.O. Box 458
191 Closz Drive
4) Soil Association Webster City, IA 50595
Bristol House 515-832-3280, 800-456-3280
40-56 Victoria Street www.mcmurrayhatchery.com
Bristol, BS1 6BY
United Kingdom 14) Georgia Quail Farm (GQF Manufacturing Co.)
0117 314 5000, 0117 314 5001 FAX P.O. Box 1552
www.soilassociation.org Savannah, GA 31498
912-236-0651
5) Robert Plamondon
364775 Norton Creek Road 912-234-9978 FAX
Blodgett, OR 97326 15) Scanes, Colin G., George Brant, and M. E.
541-453-5841, 541-453-4139 FAX Ensminger. 2004. Poultry Science. 4th Edition.
www.plamondon.com Culinary and Hospitality Industry Publications
6) Micro Essential Laboratory, Inc. Services. 372 p.
P.O. Box 100824
4224 Avenue H 16) Bruesch, Ted. 2005. Develop plan to eliminate
Brooklyn, NY 11210 rodents in poultry houses. Feedstuffs. November
718-338-3618, 718-692-4491 FAX 7. p. 15.
www.microessentiallab.com 17) Mississippi State University
7) Fisher Scientific Inc. Poultry Science Department
800-766-7000 Box 9665
www.fishersci.com Mississippi State, MS 39762
662-325-3416
8) Joel Salatin
Polyface Farms, Inc. 662-325-8292 FAX
Rt. 1, Box 281 www.msstate.edu/dept/poultry/extdis.htm
Swoope, VA 24479 18) Cooperband, L. 2002. The Art and Science of
540-885-3590 Composting: A Resrouce for Farmers and Com-
9) Blake, John and Joseph Hess. 2001. Litter treat- post Producers. Center for Integrated Agricultural
ments for poultry. ANR-1199. Alabama Cooper- Systems. University of Wisconsin, Madison, WI.
ative Extension Service. Auburn, AL. www.cias.wisc.edu/pdf/artofcompost.pdf
www.attra.ncat.org ATTRA Page 13
14. Appendix 1: Mechanical Ventilation in the summer and increases air speed to cool birds
Components of mechanical ventilation include static as it passes over them (convective cooling). The fans
pressure and cubic feet per minute (cubic meters per are located on one side of the house and the air inlets
second). Static pressure is the difference between on the other.
inside and outside atmospheric pressure. It is positive
or negative depending on whether fans exhaust air from Appendix 2: Composting Poultry
the building (negative) or blow air into the building Litter
(positive) (1). The measurement cubic feet per minute Poultry litter is an excellent feedstock for compost-
(cfm) describes the volume of air entering an air inlet.
ing. Composting is controlled decomposition, the natu-
For a ventilation system that operates under negative
ral breakdown process of organic materials (18). Raw
pressure year-round, a minimum requirement of 1.5
materials are transformed into biologically stable,
cfm per pound of bodyweight should be provided for
humic substances that are an organic matter source
laying hens and 1.25 cfm per pound of bodyweight for
with a unique ability to improve the chemical, physi-
broilers to provide oxygen and to remove excess heat,
cal, and biological characteristics of soil. In compost,
moisture, and gases. If the birds need to be cooled,
nutrients are present in the same amounts but in a less
higher air volume is required. Less ventilation is
soluble form, and compost has less odor than raw lit-
needed for chicks (0.1 cfm per chick). A 36-inch fan
ter. However, some nitrogen (N) escapes during com-
provides about 10,000 cfm. About 15 to 20 ft2 of inlet
posting, so the phosphorus (P) is more concentrated
opening is required for each 36-inch exhaust fan (1).
For cool weather ventilation, a chicken house that is 40 in compost. Due to the action of microbes, volume
feet wide should have one 36-inch fan for every 100 of compost is reduced compared to the original lit-
feet of house length. Fans can be controlled with ther- ter. “Water and carbon dioxide lost during compost-
mostats. During cold weather when ammonia is a prob- ing reduce the litter volume by 25-50 percent and the
lem, thermostats may need to be set in order to remove litter weight by 40-80 percent.” Composting occurs
ammonia more often (1). through the activity of microorganisms naturally found
in soils, which colonize the material and start the com-
Air inlets control the air entering the house. Large posting process (18). During the active phase of com-
openings allow air to enter at a slower speed while small posting, the temperatures in the pile get high enough
openings allow it to enter at a higher speed. A stream of to kill pathogens. The pile should be at least one cubic
air (air jet) is used to mix fresh air with moist, ammo- yard in order to retain heat. During this phase, oxygen
nia-laden air during cold periods, and to mix fresh air must be replenished by aeration or turning of the pile.
with hot air in warm periods. With no air jet, there is During the curing phase, temperatures lower, organic
no ability to mix air and the air will just drift toward materials continue to decompose and are converted to
the fans. Or cold air may fall to floor level where it biologically stable humic substances. Optimal condi-
chills the birds. Ideally air jets should be able to reach tions for rapid composting include a carbon to nitro-
the center of the house in order to properly mix fresh gen ratio of 25-35:1, moisture content of 45-60 per-
air with air in the house (1). Air inlets are usually cent, available oxygen of more than 10 percent, particle
located under the eaves along the sidewalls of the house size of less than1 inch, bulk density of 1,000 lbs/cu
or on the ends of the house. Air inlets should direct yd, pH of 6.5-8, and temperature of 130-140 F (18).
air across the ceiling to the center of the house during If the carbon to nitrogen ratio is less than 20:1, the
cold weather to allow proper mixing of fresh cold air microbes have surplus nitrogen (N), which can be
with warm air. If a house has a slightly negative pres- lost to the atmosphere as ammonia gas. Also the pH
sure, the air will enter the inlets at 500-1,000 feet per should be less than 7.5 to prevent ammonia forma-
minute, which is fast enough to reach the warm air that tion. In order to compost poultry litter, additional shav-
collects in the ceiling area. In warm weather, air inlets ings or carbon source may need to be added. If con-
should direct air right above the birds for maximum ditions are not optimal, anaerobic decomposition may
cooling. It is helpful to have a winch that can open and
occur, which produces foul-smelling sulfur and takes
close inlets (1).
longer to compost. Composting bird carcasses (mortali-
Evaporative cooling can cool air in the houses even in ties) is usually done in a bin. For more information
humid areas. It includes evaporative cooling pads and on composting poultry litter, see ATTRA’s Farm-Scale
foggers. Tunnel ventilation can be used to remove heat Composting Resource List.
Page 14 ATTRA Poultry House Management for Alternative Production