Livestock Production Theory PDF

Summary

This document details the theory of livestock production. It examines economic concepts as well as factors affecting the process. The document also discusses production, productivity and various types of functions.

Full Transcript

Economic concepts used in livestock production

Livestock production: a process by which inputs

/resources are combined and transformed into final goods

and services.

Farm /firm is any economic institution that transforms

factors of production (inputs) into animal goods (output).
 Production

Is the process of transformation of inputs into

outputs.
 Productivity

It measures the relation between outputs
(revenue) and inputs. It expressed in numerical
values
 Productivity can be calculated like this:

Outputs

____________

Inputs

Labour productivity can be calculated like this:

Output of farm

____________________

Number of labour
 The productivity of capital:

Annual revenue of farm

________________________

Total value of capital used
Importance of productivity measure

*When productivity increases, the investor
can:
Reduce prices, to the benefit of consumers

Increase wages, to the benefit of their workers

Earn a higher profit, to the benefit of the
entrepreneur
 Increase production, using the same number of
skilled workers

Save labour costs, by reducing the number of
workers.
For the national economy, increased productivity
can:
- Increase exports, because local goods are more
competitive in price
- Encourage growth in output
- Increase wages
- Reduce prices and inflation
- Increase consumer spending, so other
businesses benefit from a more prosperous
market.
 Labour productivity is important for any
business, and can be increased by:
- Improved technology

- Better organization and management, so that
less time is wasted

-An improved attitude to work, with more
effort and better attendance
 - Better working conditions

- Human resource development, resulting in a
better educated and healthy labour force.
 Factors affecting production

1. Natural factors: like climatic conditions, soil type affect

production. Production can be diminished due to natural

calamities like flood, drought etc.

2. Technical factors: Can positively influence production.

Use of improved variety, fertilizers, insecticides etc. can

give us more production.
 3. Infrastructure facilities: Like transport, credit, storage etc.

4. Character of people: determines productivity. The hard

workers and sincere workers always produce more and hence

it is very important factor which influences production.

Any livestock production process depends up on different

(inputs) which called production factors.
 Production factors (inputs)

Def. They are inputs or ingredients which mixed

together to produce output. It usually includes

factors of production which are land, labour,

capital (cash and non cash) and management

(manager) see chapter I.
 Classification of inputs

inputs

Variable Fixed
inputs (VI) inputs (FI)
 Variable inputs (VI):

They are inputs which can be easily changed with

the change of level of livestock products that

produced.

for example, feed, drugs, electricity and raw

materials.
 Fixed inputs (FI)

inputs which not changed with change of level of
production in the short run only.

Examples of fixed inputs are: equipment or
machines, land and building.
 Effect of time factor on inputs
The short run (SR) is the period in which the farm cannot change its fixed

inputs. The short run is not long enough to allow changes of the variable

inputs (usually less than one year).

The long run (LR) is defined as the period that is long enough to allow the

changes of all inputs (usually more than one year), none of which are fixed,

even the technology. For example, while in the short run a farm can increase

its production by working extra hours, in the long run, the farm can decide to

build and expand its production area to install capital-intensive machines and

avoid overtime.
 Product: is the end result of production process.

Total product (TP) - is the total amount of livestock goods (output) that

produced in a certain period.

Average Product (AP) is the total product of livestock produced divided

by the Number of production units (X) (input). This is a measure of how

efficiently input is converted to output.

Y (Total production)

AP = ----------------------------------------------------

X (Number of production units)
 Marginal product (MP) is the change in TP

(output) per unit change in (input).

/\ Y

MP = ------------------------

/\ X
 The production function
Def: refers to the physical relationship between the inputs or
resources of a firm and their output from goods and services at
a given period of time.
 Y = f ((L, N, K, ………..)

Where Y = output, L =labor, N= Land, K =

capital………….etc

This equation tells us the quantity of the output 'Y'

which is produced by the given quantities of inputs.
 The production function may be also expressed in
linear and logarithmic form as follow:

Linear form:
Y= a+ n1 X1 +n2 X2 – n3 X3 +……
Logarithmic form:
Y= a+ n 1log X1 +n2 log X2 – n3 log X3 +……

Where
Y= Yield or quantity a= constant n= value of X1
input X1= input
Assumptions of production function

1. It is associated with specified period of time.
2. The state of technology is constant during the
period of time.
3. The producer is expected to use the best and the
most efficient technique.
4. The factors of production are known in
quantity.
 According to time period, the production
functions of any livestock projects are classified
into two types:
production functions

Short Run

Long Run
 (i) Short Run Production Function
(Production with only one variable input)
It is a type of input-output relationship in
which the quantity of one input is variable and
the quantities of other inputs are constant.
i.e some inputs held constant and the ratio of
one variable input increase to that of fixed
inputs
So, this type of production functions called the
Law of Variable Proportions or the Law of
Diminishing Returns or Law of Returns to a
Factor.
 (ii) Long Run Production Function
(Production with all inputs are variable)
It is a type of input-output relationship in which
the all inputs are variable. There are no fixed
inputs in the long run. So output can be varied by
changing all the inputs simultaneously. i,e all
inputs are increased in the same proportion to
increase of output.

So, the production function is called Law of
Returns to Scale according to the scale of
production which indicates how production
responds to proportional changes in all inputs.
 Elasticity of production (Ep)
It is the percentage change of an output to the percentage
change of an input.

It is an indicator of the responsiveness of output to changes in
input.

Or it is the percentage changes in the production in relation to

the percentage changes in the production resource = elasticity

of the total product curve, also equal to the percentage change

in production / percentage change in the production factor.
 This can be represented by the following equation:

/\ Y /\ X

= --------------- / --------------

Y X

/\ Y X

= -------------- X --------------

/\ X Y
Law of Variable Proportions /Law of Diminishing
Returns (one variable input-output relationship):

The law of diminishing returns is one of the most important laws of

production. This law used to analysis the relationship between one

variable input and output of livestock in short run period.

Def: As equal amount of one input are added and the other inputs are

fixed, the total output increase gradually till reach to saturation point,

after this point the increase in the level of input give less and less

output.
 Assumptions
The law of diminishing returns occurs under the following
assumptions:
(i) Short run. The law assumes short run situation. The time is
too short for a farm to change the quantity of fixed inputs. All
the resources apart from this one variable are held unchanged
in quantity and quality.
(ii) Constant technology. The law assumes that the technique
of production remains unchanged during production.
(iii) Homogeneous factors. Each factor unit is identical in
amount and quality.
The law of variable proportions is explained with
the help of following table.
Land No. ofTotal Marginal Average

workers product* product* product*
1 1 10 10 10
1 2 30 20 15
1 3 60 30 20
1
1 4 88 28 44
1 5 100 12 50
1 6 110 10 55
1 7 118 8 16.85
1 8 118 0 14.75
1 9 110 –8 12.22
1 10 100 –10 10
 With a given fixed quantity of land, numbers of
workers are increased from 1 to 10.

Up to 3rd unit of worker, the total product
increases at an increasing rate and after that at
diminishing rate.
Average product increases up to 4th unit of
labour and falls throughout thereafter.
 When there are 7 workers engaged, the output is
maximum, i.e., 118 kg. Beyond this point, the
total product starts diminishing.

From the third (MP) column that marginal
product is falling continuously after 3rd unit of
worker and even becomes negative beyond 8th
unit of worker.
 The law can be also explained using Fig. 10 shown as
under:
TP and MP, and AP curves and Stages of
production
 Relationship between Average and
Marginal Curves
When the marginal is less than the average, the average

decreases.

When the marginal is equal to the average, the average

does not change (it is either at maximum or minimum)

When the marginal is greater than the average, the

average increases
Properties of TP, MP and AP curves and the three stages of
production
Stage of Total product Marginal product Average Product
production
Increases and then
decreases
Stage I Increase at increasing Increases and then increases

rate then increase at decreases

diminishing rate
Continues
increase
rate atto
diminishing
and be
becomes
maximum
Stage II Continues to increase at Continues to diminish and Becomes equal to

diminishing rate and be becomes equal to zero marginal product and

becomes maximum then begins to diminish

Stage III Diminishes Becomes negative Continues to diminish but

will always be greater

than zero.
 Now

In which stage a producer would like to

operate?
Answer

‘Stage-II’.

Why?
 A producer will not like to remain in Stage-I although his MP is rising

and TP is rising at an increasing rate. The farm, in this stage, always has

incentive to expand and earn more profit.

So it is always willing to come out of this stage and earn more profit

through expansion.

In Stage-III, TP starts declining and MP becomes negative. No farm

would like to employ such doses of labour which may decrease its TP

with negative MP. This stage is also not a stage of producer‘s

equilibrium.
 In Stage-II a producer will like to operate. In
this stage, the farm reaches the point of
equilibrium where its profits are maximized.

Stage-II satisfies an important condition of
producer‘s equilibrium: that in a state of
equilibrium, farm‘s MP must be rising.
 Producer equilibrium
Producer equilibrium under the pure competition is the determination of the
production level at which the cost of the production unit is at the minimum level
and the determinant of the best resource mixture which achieve the high profit
under the production budget allowed. So we must determine the best combinations
of production resources that if we recombined it not give or yield:-

1-The same amount of production by the lower-level of resources.

2-High amount of production with the same resource combinations. Than the same
production and this conditions is the necessary condition for achieving the
economic efficiency but it is not enough conditions for maximization the economic
efficiency.
 Point of maximization of profits
To convert physical to monetary terms, multiply the product (Y) by

its price (Py) and the resource (X1) by its price (PX1).

Then MP become MVP

AP becomes AVP

TP becomes TR

Marginal return MR = /\Y * PY

Marginal cost MC = /\X1 * PX1.
 The point of maximum profit occurs when units

of the variable resource have been added to the

fixed resource until the MR is equal to the

marginal cost of the variable resource.

At this point, MR = MC /\Y * PY = /\X1 * PX1
 /\Y PX1

---- = --------

/\X1 PY

Input price

i.e. MP = --------------------------

Output price
 Px

So the point of maximum profit occurs where the line ---------

Py

Is tangential to the total product curve. It should be noted that this

point of maximum profit is short of the point of maximum total

product would be the point of maximum profit, only if the resource

were free.
 Production with two Variable Inputs
(Isoquant analysis)
We now analyze production function by allowing two factors say

labor and capital to vary while all others are held constant (input-

input relationship with fixed output).

With both factors are variable, a farm can produce the same level of

output by using more labor and less capital or a greater amount of

capital and less labor or moderate amounts of both. A farm continues

to substitute one input for another while continuing to produce the

same level of output.
If two inputs say labor and capital are allowed to
vary, the resulting production function can be
illustrated in the figure.
 In this figure each curve (called an isoquant) represents a different
level of output. The curves which lie higher and to the right represent
greater output levels than curves which are lower and to the left

For example, point D represents a higher output level of 250 units
than point A or B which shows output level of 150 units.

The curve isoquant which represents 150 units of output illustrate
that the same level of output (150 units) can be produced with
different combinations of labor and capital. Combination of labor
and capital represented by A, can employ OL1 quantity of labor and
OC1 units of capital to produce 150 units of output.
 The combination of labor and capital represented
by point B will use only OL2 units of labor and
OC1 of capital to produce the same level of
output.

Thus, if a country has surplus labor and less
capital, it may use the combination of labor and
capital represented by point A.

In case the country has abundant capital and less
labor, it might produce at point B. The isoquants
through points A and B shows all the different
combinations of labor and capita that can be used
to produce 150 units of output.
 Isoquant

An isoquant may be defined as: "A curve each point on

it produces the same level of production (output) with

various resources combinations. The modern

economists are using isoquant curves for determining

the optimum input combination to produce certain units

of a commodity at the least cost.
 The concept of isoquant or equal product curve
can be better explained with the help of schedule
given below:
Combinations Factor X Factor Y Total Output (kg

meat)

A 1 14 100

B 2 10 100

C 3 7 100

D 4 5 100

E 5 4 100
 In the table given above, it is shown that a
producer employs two factors of production X
and Y for producing an output of 100 kg meat.
There are five combinations which produce the
same level of output (100 kg meat).
 The factor combination A using 1 unit of factor X and 14 units of

factor Y produces 100 kg.

The combination B using 2 units of factor X and 10 units of factor Y

produces 100 kg.

Similarly combinations C, U and E, employing 3 units of X and 7

units of Y, 4 units of X and 5 units of Y, 5 units of X and 4 units of Y

produce 100 units of output, each.

The producer, here, is indifferent as to which combination of inputs

he uses for producing the same amount of output.
The alternative techniques for producing a
given level of output plotted on a graph
 Isocost:

Def: a curve, each point on it gives the same

cost but at different resources combinations.

Or a curve which shows various combinations of
inputs that cost the same total amount
Isocost curve