LIVESTOCK SYSTEM.pdf

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Livestock System
Livestock systems
- organized and managed the production of
animals, primarily for food, fiber, labor, and other
resources. These systems involve the breeding,
rearing, and management of animals under various
production methods and environments.

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 Livestock System
Types of Livestock systems

1. Extensive Grazing Systems: In these systems,
animals are allowed to graze freely over large areas
of land. This method is well-suited for areas with
abundant pastureland and low input requirements.
2. Intensive Confined Systems: Intensive systems
involve keeping animals in controlled
environments, often indoors. This method is
commonly used for poultry and swine production.
It allows for efficient use of space and resources
but may raise concerns about animal welfare and
environmental impact.

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 Livestock System
3. Mixed Systems: These systems combine both grazing
and confinement methods. Animals are often rotated
between pastures and indoor facilities to balance
environmental sustainability and productivity.
4. Agro-pastoral Systems: Here, livestock and crop
production are integrated. The animals provide manure
for crops, while crop residues become feed for the
animals, creating a mutually beneficial relationship.
5. Specialized Livestock Systems: These focus on specific
animal products, such as dairy or wool production.
Breeding, feeding, and management practices are
tailored to maximize the desired output.

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 Livestock System
Animal systems refer to the interconnected networks of organs
and tissues that work together to sustain life and maintain
homeostasis in animals. These systems, such as the circulatory,
respiratory, digestive, nervous, and musculoskeletal systems,
must function in a highly coordinated manner to ensure the
animal’s survival. Each system performs specific roles—like
transporting nutrients, processing energy, or responding to
environmental stimuli—but they are all interdependent. For
instance, the circulatory system delivers oxygen from the
respiratory system to cells throughout the body, while the
nervous system regulates these processes to maintain balance,
responding to internal and external changes. This integration
ensures that animals can adapt to their environment, grow,
reproduce, and sustain vital functions.
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Homeostasis
 Some examples of homeostasis in animals
include

Temperature regulation - Animals use mechanisms like
sweating, panting, and changes in blood flow to maintain
a stable body temperature despite changes in the
environment.
Water and electrolyte balance - The kidneys and other
systems work to regulate the amount of water, sodium,
potassium, and other ions in the body to prevent
dehydration or electrolyte imbalances.
 Some examples of homeostasis in animals
include

Blood sugar regulation - The pancreas secretes insulin
and glucagon to keep blood glucose levels within a
narrow range, providing cells with a steady supply of
energy.
Calcium and phosphate balance - Hormones like
parathyroid hormone and vitamin D help regulate
calcium and phosphate levels in the blood and bones.
 Some examples of homeostasis in animals
include

pH balance - Respiratory and renal mechanisms work to
maintain a stable blood pH, as significant deviations can
disrupt cellular function.
Cardiovascular homeostasis - The cardiovascular system
adjusts heart rate, blood pressure, and blood flow to
meet the body's constantly changing oxygen and
nutrient needs.
Overview of Major Animal Systems

Circulatory
Respiratory
Digestive
Nervous
Endocrine
Excretory
Reproductive
Musculoskeletal
Immune systems
 Overview of Major Animal Systems
Circulatory
The circulatory system transports
oxygen, nutrients, and waste
products throughout the body via
the heart, blood vessels, and blood.
The heart pumps oxygenated blood
through arteries, delivering
nutrients to cells. Veins return
deoxygenated blood and waste to
the heart. Blood components—red
cells, white cells, platelets, and
plasma—play key roles in oxygen
transport, immunity, clotting, and
waste removal.
 Overview of Major Animal Systems
Respiratory

The respiratory system facilitates
gas exchange by bringing oxygen
into the body and expelling carbon
dioxide. Air enters through the
trachea, travels to the lungs, and
reaches the alveoli, where oxygen
diffuses into the bloodstream, and
carbon dioxide diffuses out. The
lungs then expel carbon dioxide
during exhalation, maintaining vital
oxygen and carbon dioxide levels in
the body.
 Overview of Major Animal Systems
Digestive

The digestive system breaks down
food into absorbable nutrients. It
begins in the mouth, where food is
chewed and mixed with saliva, then
moves down the esophagus to the
stomach for further breakdown by
acids. The small intestine absorbs
nutrients with the help of bile from
the liver and enzymes from the
pancreas. Waste is expelled via the
large intestine.
 Overview of Major Animal Systems
Nervous
The nervous system controls and
coordinates body activities by
transmitting nerve impulses. The
brain processes information and
sends signals through the spinal
cord, which acts as a highway for
nerve impulses. Peripheral nerves
extend from the spinal cord to
muscles and organs, enabling
sensory input, motor control, and
reflexes, ensuring the body
responds appropriately to internal
and external stimuli.
 Overview of Major Animal Systems
Endocrine
The endocrine system regulates
body functions by releasing
hormones from glands like the
pituitary, thyroid, and adrenal
glands. The pituitary controls
growth and other glands, the
thyroid regulates metabolism, and
the adrenal glands manage stress
responses through cortisol.
Hormones act as chemical
messengers, coordinating
processes like growth, metabolism,
and stress adaptation across the
body.
 Overview of Major Animal Systems
Excretory
The excretory system removes
waste products from the body,
primarily through the kidneys,
which filter blood to form urine.
Urine travels from the kidneys
through the ureters to the bladder,
where it is stored until expulsion.
The urethra then carries urine out
of the body. This system maintains
fluid balance and eliminates toxins,
ensuring overall health.
 Overview of Major Animal Systems
Reproductive
The reproductive system enables
the production of offspring, with
distinct male and female organs.
Males produce sperm in the testes,
which is delivered through the
penis during ejaculation. Females
produce eggs in the ovaries;
fertilization typically occurs in the
fallopian tubes, with the uterus
nurturing the developing embryo.
These systems ensure genetic
continuity and species survival.
 Overview of Major Animal Systems
Musculoskeletal
The musculoskeletal system provides body support, enables
movement, and protects internal organs. Bones form the
framework and shield vital organs, while muscles attached to
bones generate movement. Joints connect bones, allowing
flexibility, and connective tissues like tendons and ligaments
stabilize and link muscles and bones for coordinated motion.
 Overview of Major Animal Systems
Immune System
The immune system defends the
body against pathogens through
white blood cells that identify and
attack invaders. Antibodies,
produced by these cells, neutralize
harmful substances. The lymphatic
system, including lymph nodes and
vessels, filters out pathogens and
supports immune responses.
Together, these components
protect the body from infections
and diseases.
 Interdependence of Systems

Animal systems are interdependent, working together
to maintain homeostasis. For example, the circulatory
and respiratory systems collaborate to oxygenate
blood. The respiratory system brings oxygen into the
lungs, where it diffuses into the bloodstream. The
circulatory system then transports this oxygen-rich
blood to cells throughout the body while carrying
carbon dioxide back to the lungs for exhalation. This
interdependence ensures that vital processes like
oxygen delivery and waste removal are efficiently
managed.
 Livestock System
Importance of Livestock Systems
1. Food Security: Livestock contributes
significantly to global protein consumption.
Meat, milk, and eggs are essential components
of diets worldwide.
2. Economic Livelihoods: Livestock farming
provides income for millions of people,
particularly in rural areas. It offers employment
opportunities in various sectors such as
farming, processing, and distribution.

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 Livestock System
3. Nutrient Cycling: Livestock manure is a
valuable source of organic fertilizer, which
improves soil fertility and crop yields.

3. Cultural Significance: Livestock often hold
cultural and social importance, particularly in
traditional practices and ceremonies.

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 Livestock System
Challenges Faced by Livestock Systems
1. Environmental Impact: Intensive systems can
contribute to deforestation, water pollution,
and greenhouse gas emissions.

2. Animal Welfare: Confined systems may raise
concerns about the well-being of animals due
to limited space and unnatural living conditions.

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 Livestock System
3. Disease Management: Dense populations in
intensive systems can facilitate the spread of
diseases among animals, posing risks to both
livestock and human health.

4. Resource Constraints: Livestock farming
requires substantial resources, such as water
and feed. Ensuring sustainable resource use is
crucial.

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 Types of Livestock Animals
1. Water Buffalo (Bubalus bubalis)
- a large bovine species originating in Asia; not to be
confused with the wild African buffalo (Syncerus
caffer)
- The vast majority of buffaloes are raised in labor-
intensive, small family farms, where they provide milk
and serve important functions as draft animals,
particularly in rice production.
- Buffalo milk has important nutritional value; it has
twice the calorific content of cow’s milk, is extremely
rich in calcium and is a good source of minerals like
magnesium, potassium and phosphorus.
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 Livestock System
2. Cattle (Bos indicus and B. taurus)
- are the most common and widespread species of
large ruminant livestock and are raised primarily
to produce milk, meat and hides and to provide
draft power.
- are raised in diverse production systems ranging
from capital-intensive, specialized beef and dairy
grass-based and feed-lot systems; through multi-
purpose cattle in labor-intensive, mixed crop-
livestock systems; to extensive pastoral and agro-
pastoral systems.

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 Livestock System
2. Cattle (Bos indicus and B. taurus)

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 Livestock System
3. Chickens (Gallus gallus domesticus)
- were domesticated from the red junglefowl
(Gallus gallus) in Asia around some 5,000 years
ago.
- are undoubtedly the most ubiquitous and
abundant species of domestic livestock and occur
more or less everywhere that humans do.

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 Livestock System
4. Ducks (Anas platyrhynchos)
-particularly numerous in Bangladesh, China and
Southeast Asia but are also popular in Egypt,
Nigeria and much of Europe, particularly in western
France.
-are raised in a great variety of production systems
ranging from small numbers of birds held in mixed
farms, to vast flocks that are transported in lories
to clear up paddy fields following rice harvests.

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 Livestock System
4. Ducks (Anas platyrhynchos & Cairina
Moschata )

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 Livestock System
5. Horses (Equus ferus caballus)
- was domesticated in the Eurasian steppes
around 4,000 BC
- Horses are NOT ruminants like cattle, sheep and
goats but break down the cellulose in plant
material through hindgut fermentation by
symbiotic bacteria in the cecum.
- Horses still fulfill these traditional roles in many
parts of South America, Asia, Africa and Eastern
Europe. Elsewhere it is of great economic
importance to sport and leisure industries.
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 Livestock System
6. Goats (Capra aegagrus hircus)
- a widely distributed small ruminant species that is
kept mainly for meat, milk, hides and hair.
- They are raised in a wide range of production
systems around the world. The majority are
raised in smallholder, mixed farming systems but
goats are an important component of pastoralist
herds and high-value animals are raised for
specialized dairy production in temperate
regions.

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 Livestock System
7. Domestic Pig (Sus domesticus)
- mainly raised to provide meat though the leather
and hair can also be used.
- are extremely versatile and are raised in a
spectrum of systems ranging from massive,
capital-intensive production units to small, labour-
intensive family units, in which pigs scavenge for
food.

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 Livestock System
8. Domestic Sheep (Ovis aries)
- a very widespread small ruminant species raised
primarily for its wool, meat, milk and hides.
- The species has been developed into a multitude
of breeds, adapted to serve different purposes in
diverse environments
- are raised in a wide range of production systems
around the world, reflecting the prevailing
environmental conditions and socio-economic
context.
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 Introduction to Environmental
System

ILO 3: By the end of the learning experience,
students must be able to:

✓Discuss Environmental System

43
Introduction to Environmental System
 Environmental System
Environmental systems refer to the intricate
interactions between living organisms and their
surroundings.
In the realm of agriculture, these systems play a
pivotal role in determining the success and
sustainability of farming practices.
Both plants and livestock are profoundly affected
by their environment, which encompasses factors
like temperature, humidity, light, air quality, and
more.

Environmental System 44
 Controlled
Environment

Also known as a critical
environment, is a space with
precisely regulated
environmental factors. Air
temperature, temperature, and
humidity are regulated to
meet operational needs, and
the critical area is isolated
from other operations within
the facility.
 Controlled Environment
Environmental control in Agriculture is the
combination of engineering, plant science and
computer managed control technologies use to
optimize plant and animals growing systems,
quality and production efficiency.

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 Controlled Environment
Plants in Controlled Environments:

1. Greenhouses: These structures allow for
manipulation of temperature, humidity, and light,
extending the growing season and enabling the
cultivation of crops that might not thrive in the
local climate.

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 Controlled Environment
2. Hydroponics and Aeroponics: These soilless
cultivation methods provide precise control
over nutrient delivery, water availability, and
oxygen levels. They optimize resource use,
accelerate growth, and allow cultivation in
areas with limited arable land.
3. Vertical Farming: Vertical farming involves
growing crops in stacked layers or vertically
inclined surfaces. LED lights can be fine-tuned
to match specific growth stages, while
controlled environments ensure consistent
results regardless of external conditions.
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 Controlled Environment
Livestock in Controlled Environments
1. Animal Housing: Livestock housing systems, such
as barns or poultry houses, offer protection from
extreme weather, predators, and disease.
Temperature, ventilation, and lighting can be
regulated to maintain animal comfort and health.
2. Aquaculture: Fish and aquatic organisms can be
raised in controlled aquatic environments. Proper
water quality management, including oxygen
levels, temperature, and waste removal, is critical
for their well-being and growth.
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 Controlled Environment
3. Feed Management: Controlled environments
also extend to feed production and
management. Ensuring proper storage
conditions and nutritional balance in animal
diets are essential for livestock health.

Controlled Environment 114
 Controlled Environment
Benefits
1.Predictable Yields
2.Reduced Resource Use.
3.Year-Round Production
Challenges
1.High Initial Costs
2.Technical Expertise
3.Energy Consumption

Controlled Environment 115
 Summary:
ILO1: Discuss introduction to Environmental science
and Engineering
Discussed the following:
Plant system
Livestock system
Environmental System
Controlled Environment

Summary 116
End ofTopic

Thank you
Plant and Livestock Systems and
53
Environmental Control Engineering