DAIRY DEVELOPMENT AS ON INSTRUMENT OF RURAL DEVELOPMENT

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Title: DAIRY DEVELOPMENT AS ON INSTRUMENT OF RURAL DEVELOPMENT
extracted text: i

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ROSS INSTITUTE UNIT OF
OCCUPATIONAL HEALTH RF_DEV_1.1_SUDHA

Type text here
Type text here

RF_DEV_1.1_SUDHA

outline for the model scheme
.
.

.

7

Description of the Projects.
Analysis
i. Economic viability •
Self
ii.
reliance
Organisational , financial and political assistance
iii.

received from outside.
e>4v'A.eh'^
iv.
Coordination
with the existing government infratessc.
X
Spillover
v.
into other activities .
Whether
vi.
it was sustained.
Conclusion: The technical tasks and organisational
tasks if this activity has to become, an agent of selfreliant sustained rural development, aiming at the weak
sections.
wrertors~~to be considered to create a-actual project
proposal.

Model 'Schemes for different situations.
—-------i. The •veycll perspective. J?" ,
. ,
--------- p-F=v
IfT^ th
C—
^7'
ri, Despectivn; Economic viability of the scheme i.e
profitability analysis of individual participants
and groujt.
iii. Financial .contribution Budget of the catalyst agency
-Hu.
J
iv. Time Budget; The phasing and when the catalytic
agency v/alks out.
v. Description of the key person who would be able
to execute such a project. Linkage with educational
institution in the process.
vi. The training dimension- how,
where, who?
. List <-.f voluntary and government and scientific
resource agencies with names of persers and description
of facilities with whom to coordinate at national,
state and district levels.

I

*
I

rrr.iez.ble

The Directorate of Rural Health Services and Training Programmes

(DR IX'?), St. John’s Medical Allege was requested by the
Federation of Indian Giambers of Commerce and Industry (BICCI)
to write a Model scheme for Dairying which could be circulated

to business houses interested in rural development.

Requesting

a medical institution to undertake a report on Dairying seemed

a most unconventional idee in todays world of highly specialised

academic comparhaeiftalization.

however, it was made clear- to

us that this request had stemmed from the fhet that (a) the

college had been involved in an experiment to transplant a

nsalth service function to a Daisy Cooperative since 1973 and
hence had some experience of Dairy dynamics; (b) it was felt
that such a report sliould be written by no:*-daiiy professionals

who could bake an overview of the perspectives gained by
different dairy schemes in India evan though they may be
conflicting at times.

As the request was itself unconventional the procedure of

developing the sclieme was also unconventional.

A group of

research workers in Bangalore, interested in rural development

(ref. acknowledgement) travelled around Bangalore and also

visited Anand, Uruli Rmchan and Kisiicre Bharati.

Having developed

a general format of analysis they met and discussed with
various workers in these projects and attempted to /ain an
insight into the perspectives gained by these workers.

These

perspectives helped to outline the dynamics of dairying as an
instrument of development and also helped identify factors to

be taken into account when this process is repeated in any
area.

Trie process of interacting with persons havirg grass-root

level Held eaqperienco rather than relying on published reports

RF_DEV_1.1_SUDHARF_DEV_1.1_SUDHARF_DEV_1.1_

and documents from projects has been found to be in our

experience a much more satisfactory method in understanding

development as an ouyoung dynamic process.

A report was

then written on the basis of the notes made at these
meetings.

The most important aspect of this report, is that we have

come to the conclusion that there cannot really be anything
like a ’model scheme*.

The idea that a model scheme

can be written up to be used by anyone in any part of
India is a myth.

There are model schemes.

There are only

projects that have succeeded in certain situations under certai.
constraints and therefore those factors of the local socio
economic political and cultural realities which were taken into

consideration for the decision making processes by the
project teams, to aciiieve the objectives they had set for

themselves have been identified.

The report is therefore

an attempt to higllight those questions which will have

to be asked in any area for formulation of a development
project by the development catalyst (team) which will there

by increase the possibilities of development taking place

through their efforts Development is too dynamic a process
to be put down in strictly quantitative teims.

Hence any

attempt at quantification in this report must also be taken

as a guideline and not as the final work.

If this report

is read with this perspective of I am sure, it will bo of
some assistance to those who are thinking of embarking on

a programme of dairying as an instument of change and
rural development.

’

Havi Narayan
1st March 1979

St* John's Medical

’

Acknowledgements

RF_DEV_1.1_SUDHA

- To Federation of Indian Chambers of Commerce and Industry to
giving us an opportunity to write this report.
- To ii-„. Gen. B. Mahadevan, Director, Rural Health Services

and Training programmes, St. Jhon's Medical College for
all the encouragement and advise
- To Dr. Rangnekar and his colleagues of BAIF Uruli Kanchan,

Dr. D. S. Thakur and his colleagues of NDDB, Dr. Anil Sadgopal
of iCLsiiore Bharatixi, Mr. iJarayanswamy of Mallur Milk Co

operative Society and all the others from various projects

wno have discussed with us their perspectives and shared

their erqjorience.

- To Dr. Bharat Jlrunjhunwala, Hon. Adviser, Rural Development
i’ICCX Ibr being available all ths time for consultation

o

and discussion.

- Finally to my friends and colleagues Mr Shekar Borgeonkar
(Indian Institute of Science, Bangalore ), Mr Rajadu (Indian
Institute of Science, Bangalore), Mr Y. Chandra (Indian

Institute of Manageasnt for all the help and support in
collecting the information for this report.

IADLB Ci'1 CONTENTS
RF_DEV_1.1_SUDHA

•.

Intcro duction

2.

Discription of the Projects
Amul
BAIF
Kishoro Bhc.xn.ti

Mallur Milk Cooperative
3.

Conclusions

Technological Issues
Organizational Issues

4.

Model Schene s^£&scEibe:__&op. _Milk marketing-os’
supply to other act,-AI-Up -hreeding—
--contribution oxgel) Local factors tojbe considered

Initiation
The Beneficiary

The Budget
Phasing

The Key person
Training

5*

Resources
Agencies

Bibliography

Appendix:

Bye Laws of a Coop. Society.

r

IIJTHODUCXION

\

The concept of rural development has undergone a major
shift in emphasis in the last decade.

In the 1950’s it

was seen as a conglomeration of programmes for increased
agricultural production and rural employment through the

growth of agriculture, animal husbandry, dairying, forestry

and fisheries and infrastructural facilities such as

drinking water, roads, schools, hospitals and rural electri
fication.

By the mid 1960,3 it emerged as a strategy designed

to improve the economic and social, life of the rural poor

in particular and extending the benefits of development
i

to than.

Dairying has always been considered as an important

instrument in the development process in India but studies
of the benefits of milk cooperatives of the Gujerat pattern
X,

to small farmers marginal fanners and landless andthe

\

profiles of social change brought about by dairying has
placed it among the best instruments of change that are

available today.

The Direct economic benefits of dairying are well known

especially when cross-bred technology is used.

The Gujerat

experiment of Dairy cooperatives has increased these benefits
even further by stabilising the process and controlling of

the market.

It has been shown that landless and marginal

farmers earn as much as 65-70% and small farmers about 25-30% of t

their 'total income in areas where dairy cooperatives have
been introduced.

The lower half of the social organisation

seems to be benefl/ted by this

process and in the last

two decades it has been seen that many social groups classed

as economically backward have registered marked increase
not only in their income but also in their ability to invest

2

in capital resources.

It is this potential for the

economic development of the poor through dairying

especially when it is a cooperative activity qualified it

to be a very important instrument in rural development.

Cooperative dairying lias also found to have subtle but

important effects on the m social life of the rural

areas.

It lias been able by its very process of democratic

functioning ’to eliminate the ago-old barriers of caste,

untouchability and. communalism and acted as a great social
equalise.

By recognising the importance of women in their

role of manageresses of dairying in general it has increased

their status and their confidence in dealing with business and
social life.

It has acted as an outpost of rationality

within tho rural conaiunity giving the villagers respect
for organisation, technology and efficient functioning.

Interestingly enough it was found that in mapy villages

though the panchayats had become an institution for

expression of power and status drives of individual trie milk
cooperatives were kept free of the conflict based on ethnic

clearages and allowed to function smoothly as a means of

economic development of the whole community.

With increase awareness of correct feeding practices,
and regular health check ups and immunization of cattle

and the process of controlled Artificial insemination for br
eeding of better quality cattle it lias found to have

had an indirect effect on the villagers reactions to health

programmes of nutrition, family planning andmedical ears.

finally the villagers have been able through the cooperative
endeavour contribute to many other community development

activities from the earnings and profits of the dairy

3

cooperative.©ns of the Milk Cooperative societies of
Gujerat has over the years been able to construct an approach

road, lay a water pipeline, donate for flood relief construct
water troughs for cattle, plan a library youth cludb,
primary school, balwadi, provide benches for public use at the
village bus stand, contribute to a IB hospital apart from pro-

poganda and extension work done to increase membership and
awareness of the benefits of dairying.

There are many such

examples which highlight the total effect that dairying can
have on the community ability to begin to tackle and solve
their own problems

It is these features of dairying that make it stand out as

a process worthy of consideration in any planned attanpt at
social change and development.

Ebur case studies liave been

presented in this report followed by the identification of
technological and organisational tasks that are necessary in
use of dairy as a catalysing force in rural development.

A

process lias been described based on the experiences of these

projects and the guidelines for a model scheme thereby

highlighted.

1

i
J
ftA
\

^■TUL (GUJARAT)

A
The Kaira District Cooperative Milk Producers union.
Limited, popularly known as AMUL (Meaning ’ptecious'
in Gujarati') was organised at Anand in Gujarat in

1946 with the blessings of the Late Sardar Vallabbbhai

Patel.

The Anand Union started functioning with a

handful of members from two village milk producers
cooperative societies and began pasteurising milk

for the Bombay Milk Scheme in June 1958.

Starting from

i

a collection of 250 litres of milk per day the union
gradually developed village societies in practically

every village throughout the district and now collects
over 450,000 litres of milk from approx 240,000 farmers.

The total annual turnover is around 450/million
rupees.

The structure of the Anand Milk Cooperatives consists

of a two tier system of village Milk producers
cooperative Societies at village level and as Distric t
cooperative ses-i milk producers union at district level.
The primary village societies are the base-level units

shile the district level ’union is the apex body.
This two tiered organisation of milk producers owned
and organised solely by themselves is designated

as the Anand Pattern.

Primary Cooperative
The milk supply officer or supervisor of the union
contect

the milk producers of a village who are

interesting in forming a cooperative society.Under his

guidance each producer becomes a member of the society

by payintj a membership fees of Rs 5.00 and a

2

registration fees of Rs. 1.00 only.

A general body

meeting is then held of the members to select managin g

committee th representatives by a democratic* method.

The Committee then selects the employees to perform
the day to day work of the society.

These include

a secretary, a milk collector, fat tester, clerk

inseminator, accountant and a helper.

The union

supervises this society and helps it to run its
day to day activity till it comes economically viable

in about three to four months.

In svery village the surplus milk is collected twice
daily — morning and evening.

The fat and SNF content

of the milk is tested at both tunes and the farmers

is paid twide a day accordingly.
weekly payment is made.

In some centres a

The milk is the loaded

on a truck (private contractors engaged by the milk

unions) and sent to the dairy plant at the union
headquarters where it is pasteurised and sold as

liquid milk as per local' demand.

When the distance is

quite far to the union headquarters the milk is first
taken to a chilling plant and then transported to

headquarters.. The surplus milk is converted into an
increasing range of milk products.

The daily cash pay

ments is the hallmark of the Anand pattern and each and

every milk producer received an average of Rs 4-5/every day from the sale of milk.

To many of them

especially the marginal farmers, widous and others
this forms a very major contribution to their

budget.

3

After the society becomes viable it is recommended for
registerfetion by the union to the State Cooperative

department.

It then receives constant guidance, support

and supervision by the union.

There is also a continous

and concurrent audit of all the societies on a quarterly
basis.

The union at ’the District level is represented by \

all the registered societies and has a Board of Directors

{

consisting of nineteen members, of Of these, twelve are

.

\

democratically elected representatives from the village

>

societies and the remainirg seven consists of

-

a representative of ’the Financing institutions,

- a nominee of the district cooperative department

- an expert of the dairy business/organisation
- one representative of the mi,Ik marketing federation

-

\

and three from the individual members.
’a .

The Board of Directors elects a chairman and a Vice-chainaan
and frames the general policy of theunion with respect to milk

procurenent, supply, manufacture of milk products, pricing
and pattern of distribution of finds and developmental

activities to be undertaken by the surplus finds.

It employs

a General Manager who is answerable to the Board fbr the

Unions progress.

He runs the day to day business of the

I

union and is helped by competent managers, technicians and ,
supportive staff who are employed for ’the various functions

of the union.
i)

The Union has three important functions.

It develops the marketing facilities for all themilk

which its members want to sell,.

ii)

'

It sustains the growth of milk cooperatives and initiates

new ones and supportively supervises them.

<

iii) It organis es and provides a package of technical inputs

to themenbers to enhance milk production.

This package includes
£
the provision of compounded cattle feed, lucerne seeds,

4

hybrid napies rootslips, artificial insemination services
using sene of high pedigreed or proven siresyuE round toe

clock emergency visits of toe veterinary doctors fbr treatment
of sick animals and various other veterinary searvices such as
k immunization.

These services of feed supply and veterinary facilities are

provided through toe same system evolved for collection of
milk and it has been estimated that the total cost of these
programmes amount to about 3 paisa per kilogram of milk.
The services are provided on a no profit no loss basis to

toe fanners in every village.

Many of the unions own and operate their own stud farm and

artificial insemination centre with required number of
cross bred and pure bred exotic bulls, nobile veterinary clinics,

balanced cattle feed factories fodder development programmes
and extension services.

The liquid semen collected at toe Al centre of the Union is

sent to every milk society, daily in suecially designed contait

ners throtgh toe milk trucks which collect milk.

Frozen semen

available from other institutions in toe country are also
procured and distributed.

One of the employees of toe village
I

milk society is trained in toe techniques of Al and perfonnnts
ii

the insemination on toe animal s in heat.

The follow up of •
‘ v
i

inseminations is done by trailed stock men and veterinary :

officers coming regularly toithe village from union headquarters.
Various inventives are given foxmaintaining the efficiency of

toe Al system.

The inseminater is paid Rs.5 - Rs 10 per cores

bred calf born out of the animals insemirated by him.

The ] .
5 ■

cattle owner is given Rs 4- - Rs 10 per animal wiiich is
inseminated at the centre, calf starve subsidy of 25%
i

of total cost, free vaccination, health coverage and advancp
•4
I

'

5

from the union.

Prizes are also given to the societies

covering the maximum animals under the Al programme.

The milk cooperatives (primary village societies) in close
collaboration with the union uses substantial part of their

savings ’towards:
-

dividends to thaailk producers on their share;

- bonus to tlie milk producers in proportion with the quantity

of milk supplied by thag during the year;

-

cattle development programme in each village;

- organising of extension activities like compaigns, mobile

exhibitions film shows, trips of farmers andtheir wives to
their union headquarters andother institutions concerned with

dairy development;
- publication of a monthly news letter for the farmers;
-

Strengthening of the cooperative movement in the district

Reserve funds are also built up by each society to ensure the

financial stability of the union and of the milk societies
affiliated to it.

In addition, funds are also used fbr

organisation of milk cooperative cedres ad a host of rural
development activities including schools, lib/raries, adult
education programmes, youth dubs, water and sanitation
facilities approach roads, electricity and telephone facilities

in the villages and health centres.

finally the cooperatives also provide benefits to the
neighbouring urban population through the regular supply of

unadulterated good quality milk at reasonable prices throughout

the year.
One of the most important features of the Amul pattern is the
district level union which is a sort of cooperative of co

operatives.

It is this factor which helps milk-pro du cars to

be able to control the fluctuations of the market and have

6

a bargaining strength like a union.

This givea the

mi Ik producers a greater control of the market forces
and hence is a factor providing stability to their

functioning.

The Economics of Milk production of the Amul pattern dairy .

is shown in Table I.

Hera the estimated cost of production'

of Milk is the case of Cross bred Jersey cows under dairy
J

farming system is worked out.

These are based on certain \

assumptions and are calculated for a total stock of 10

i

milch animals, 2 heifers and a few young stock (14).

Table I

. I

I?:

■ ,r

■

w ■
<A’

X

. *

The Economics of the Cooperative maybe understood by

Table II which shows -the accounts of one cooperative which nr

may be considered representative.

V

7

TABILII

Milk Cooperative Societies - 1973-76 Bandixiix
f
\

Bandhni

Vasna

No. of members

1033

527

F
*'

Share capital

6025

2715

i

Reserve Fund.

74,989

90,647

Milk purchase in litre 6,15,170

3,89,975

Milk purchase in Ss

6,25,677

5,40,136

Net profit

36,092

59,880

Dividents

9%

Bonus

2.5% =Bs 15,472 5.2%= Rs 26,831

The pattern of gross profit distributions evolved in the

Amul pattern was;
i)

7*

Deductions made for intkerest, working expenses,

loan losses, depreciations, land assessment, cess and

rent, contribution to staff provident find, gratuity
for staff, staff bonus and income tax deductions;

ii) The Net profit thus remaining is distributed as follows:
a) 25% to reserve fund

b) 9 % of the value of paid up share capital as
devidend to members

c) To educational fund of state cooperative union as
required by State Cooperative Societies Act

ill)

The remaining money is then distributed

a) upto 80% towards bonus to members in proportion
to commodity sold through union.

K

8

b) 10% towards charity fund

c) 2% towards dividend equalisation fund
d) 5% towards cooperative propoganda find

e) 3% for research work in allied industry

The societies also used their funds for contributions

towards comunity development work which included veterinary

dispensary, public health centre, Library, educational

institutions Approach road repairing, flood relief and
adult education programme.

Tn.' fhaxv.tl, a Agro Industries Foundation, Uiuli.
Kanchar (M- laxashtrc).

The ilAlf is tile culmination of tne rural development

.niciated by Sri Manibhai Desai a disciplea of nt.
1946 at Bruli Kanchar.

, G- '■ -ui in

Starting as a native- cur a

u modem goshala it finally developed inro ?> foundation

of research and extension in the fields of agxiuilture,

horticulture, dairy and animal '-uxuandry.

It was formally

registered in 1967 as a non-profit, non-goverunto vo/iu-.u-.-.-ry

agency under the Bombay Public '.'rust Act.

The fbu.nda.tion has developed an integrated pacio ge of technological

facili bies wxdch are availed of by tho fbimers in surrounding

areas at a. nominal cost.
Tiie basic schemes are:

i)

Cross breeding of cattle.

ii) Agricultural and horticultural extension and seed

multiplication units.

These are supported further* by schemes for (i) irxigation and
water management (ii) animal health care a.icl vaccination pxt>gx>-

aame and. (iii) the creation of local financial infrastructure
for loans etc.

All these activities are supperbed by vocational training
prograMac as well as technology and research units which consists

of e Dull iiotiier faxm, Bull station, geneties section, semen
free wing laboratory ano semen bank, liquid nitxogen plant,
Nutrition laboratory, Disease investigation laboratory,

Agriculture and Dairy foxm, and research units for economic

milk production and animal health.

The foundation has a well

developed infrastructure of technical manpower to extend,

support. follow up and supervise ary of the services
availed of by the fanners of the areas.

This is the sheet

anchor of BATE model of rural development.

The BAIF has deceived aid for its many projects through
various sources:

i) It got land for most of its activities from the Soverrm ent

of Maharashtra and the Zella parisaad.

ii) It received aid from foreign donar agencies like Church
of Scotland; Chilmurk foundation; Milk Marketing Board

UK; Community aid Abroad, Australia; Daniaa Deiraark;
Oxfem UK; Corso New Zealand: Christian Aid; Commonwealth,

Bureau of Dairy Sciuide and Technology, UK; Canadian

Hunger Tbundation, Canada and Catholic Relief Society
(CHS).

This aid was inainl;, used for unp importing

critical technology inputs for their base-unit.

It
iii)

sought and. received loans laid from the government

under various schemes such as SEDA, HEAL, DPAP and TADS.
iv) It has also received loans from commercial banks to
cover cost of various construction projects.

Trie cattle development programme of BALE consists of inseminating the local, indegenous, non descriptions with semen of
proven exotic bulls so that the cross-bred progeny produce will

produce higher yields of milk.

Artificial Insaaindtion is made possible by the collection

of ssnen from Jersey and Holstein bulls maintained at the
centre, the semen from which are collected regularly and stored
in plastic straws in liquid nitrogen freezing units in

which potency is maintained for an unlimited period

of time.

These straws are sent to the various centres in

special containers and then used by a group of trained

rets who act as the catalysts in the Dairy extension
scheme of BAIF.

These rets are trained in Al but in

addition they provide a regular and comprehensive health
care coverage for the milch animals in the area of their

work.

This care includes immunizations against the important

diseases of cattle, care during illness, care during dystocia

(difficult calfing) as well as advise/educate ef fanners in
caring and feeding of the cross-bred milch cows.

The rets

are Bachelors in ret sciences who are usually given a
six-month orientation programme which consists of
approximately 2 months each in the research units of the
foundation, one of the organised farm units and replacer or

reliever duty in one of the centres already in operation.
This training is practical and ensures that the ret is given
the proper motivation and skill necessary for technology

transfer to the funner.

The training has therefore three

components - technical, extension work and motivation.

The BAIF cattle development programme works through the

creation of a field centre - usually covering 2000 milch cows
as a primary unit.

Usual 1 y this means about 25 vi 11 »ges.

The

villager’s are contacted by BAIF teams which wh. hold group

discussions, farmers melas and exibitions and also free
clinics for diagnox and treatment of ill animals.

Farmers

interested in improving their milch animals are then contacted
and Al and other facilities are provided at a nominal cost.

One of the village level organizations, a cooperative societjr

a business house, a voluntary agency or a government agency

acts as the sponsor of any centre.

It has to put up certain

basic capital costs and a service charge to the BAIF for its
regular technical inputs and supervision.

The inputs

from the local village organisation or cooperative consists

of a certain basic charge to the centre (Rs 1500 per month)
plus office and residential facility fbr doctor and his ass

istant, usually running costs for the vehicle and basic

cost of postage, stationery and telephone (approximately
Rs 2,500.00 per year).

A certain basic capital investment

for furniture, a vehicle for the doctor usually a motor

cycle and seme miscellaneous items are also got from the

centre (approx, hs.25,000.00).

The Foundation provides

the services of a trained ret and his assistant, frozen

sesaen and equipment for Al including- semen containers,
liquid nitrogen containers, basic laboratory equipment for the

centre and vaccines and drugs for animal health care
(.approx. Rs 15,000 - 16,000 ).

Hie economics of the village level centre in the BAIF

pattern may be summarised as follows (l975 figures)
Capital (furniture, Vehicle
d rn.SC<~d laiicous)

Hs 2p,000.00

Recurring Costs

Service charges to BAIF

fia 1500/month = Rs 18,000.00

Running charges for vehicle,
ezipenditure on postage, telephone
stationary & Residential facility
for doctor etc.

Rs

3,000.00

Rs 21,000.00

On the assumption of a 10 year life for capital itons

the animaixsaxl annuel cost works out to Rs.25.OOQ/vear.

Since the centres usually charge Rs 24.00 per Al
for a centre to be viable a minimum annual coverage

of 1050 ccws would be required.

This is usually

possible if the centre caters to about 2000 milch cows.

From the service charges which it gets from each centre
the BAIF provides a trained ret, a village level

assistant, frozen semen and equipment for artificial

insemination including 3 semen containers, a liquid
nitrogen container, basic laboratory equipment for the

centre and travelling and miscellaneous costs
which usually works out to Rs 15,000 to 18,000/year.

(These figures represent 1975 costs).

A regular prog

ramme of follow up ensures support to all the farmers

who are learning the dynamics of cross-bred cow
maintenance and attempts have also been made by BAIF

to produce sumpie instructional aids for the farmers
like the'calender for disease prevention in cattle'

and the 'fodder plan' - which are produced in the
local language and are attempts to inform and to some

estent demystify diary technology so that the farmers
may gain confidence in accepting it.

Snail notes/

handouts on care and feeding of cattle are also made

available for reference by the mambers of the centre.

Table I and II outlines the important differences
between indigenous and cross-bred cows and the economic
of their maintenance basdd on the experience of BAIF.

6

Table I

Non descript
cow

Cross bred
cow

Weigh at birth(kg)

15 - 18

30 - 35

Growth rate Gm/day

200 - 300

700 - 1000

Age at puberty

3-4 yrs

12-15 months

Age at first catring

4-5 yrs

21 fe 24 months
2000 - 3500

Lactation yields(litres) 200 - 400
Lactation days

270

340

Dry periods

150 days

90 days

Intercatring periods

30 - 36 months

12 — 14 mnths

Number of Lactations
in life time

5-6

10-12

Aggregate yield in
life time(1000 litres) 1-2

25-35

Table II
ECONOMICS OF MAINTENANCE (in Rupees)
(A) Cost of Maintenance/yr
(Lactating & dry period)

Non-descript
cow

Cross-bred
cow

Green Fodder

345

490

Dry dodder

315

313

Concentrates

221

597

Other Feeds

237

419

Total

1118

1819

(B) Average Milk Yield
in lactation (income)

2347

4362

(C) Net Profit
( B - A )

1229

2543

T

The economics of keeping local and cross bred

cows indicate that the net return (about Rs 2,500/-)
from a cross bred cow during an intercatring period
was about double the ret turn from a local cow.

Tha BAIF has in recent years coordinated its

activities with government schemes such as SFPA and MF
MFAL in the area of its operations.

It has provided

the back up services for these schemes and the
spearheading and extension teams.

It is expected to

get much more involved in the government schemes in
Integrated Rural Development, the 6th plan in which

it will set up various centres all over the country

covering approx 2000 cross breds each and will receive
a certain subsidy eeeh-eHd-will_Eeceiva-a-c©rtaln
to run these centres.

The BAIF has had a very comprehensive view of rural
development and generation of rural employment.

However beyond agricultural activities and animal
husbandry and the support services for these there

does not seem to have been much headway in tapping
the resources of the primary centres or cooperatives
for running other developmental activities such as
education, health, road building or welfare.

Just

recently however the farmers have requested the
BAIF to organise health programmes for the members

of the centre and a plan to have doctors attached

to BAIF as under consideration.

The BAIF field centre model has been replicated

where the local village level agency has been Sble
to put up the amount through cooperative activity

8

or get sponsorship through business houses,

government schemes or voluntary agencies.

However,

the dynamics of the technical supervision and inputs

is such that it would work more efficiently where

there are clusters of centres rather than isolated

centres.

The BATE deals mainly with individual cattle
owners and does not see development of co-operative

structures or other such organisations as a necessary

part of its catalysis of rural development.

The

concept of provision of marketing facility is also

not taken into account since it is expected that
the cattle owners will deveop these for themselves

or use existing available government infrastructures.
The BATE sees it role as a sort of permanent

infrastructure of technical expertise that is
required to support and supervise cattle breading
and development.

To the extent that the recurring

costs of a centre are not met by the charges for

AT by local farmers, the BATE models will need a

sponsoring developing agency to underwrite the
running costs.

This is one of the reasons

why the BAIF has come to a much closer working

relationship with government schemas and is beginning

to work more and more through the infrastructure
produced by these schema.

A very interesting contribution of BAIF has been the

research it is undertaking in an important related
activity of cattle breading i.e., the development
of fodder resources

a

1.

The first problem it has tackled is the

reutilisation of agricultural wastes.

Many wastes are easily available in sugarcase
growing areas of Maharashtra e.g, sugar cane

bagasse, sugarcane tops and sugarcane areas.

These

have been used by the local cattle owners as fodder.
BAIF has carried out experiments on alkali treatment
and steam treatment of these wagtes to increase

the dry matter digestibility.

These cannot be

done at domestic level by individual farmers but a

small plant can be developed at village level which
can then produce processed sugarcane waste as cattle

feed at approximate cost of Rs 135 per tone (steam

treatment) and

Rs 150 per ton (Alkali Treatment.)

However at present these cannot be used as
substitute for cattle feed (approx cost Rs 1100 pe r

ton) during the lactating period of the milch animal

but can be used to tide overthe dry or drought periods.

Work is also going on into the nutritive value of

role (Egyption Miller) and Barbada seed which are

used in that area as food by people during the
drought season other wastes being studies are
tamarind seed warai bran, kasid seed, and Babul seed.

2.

Study on Koo Babul

Leucaena Leucocephala

Koo Babul is a versatile shrub which can easily

withstand the vegours of heat and drought and
grows well on rocky soils, sleep slops and increased

water salininy.

It can be used as fodder or as a

perennial legune.

The tree can be used to obtain

he

timber for poles and posts and also as fuel

fodder has high nutritive value being very’; rich in1
protein, energy and minerals. (20-25% crude protein)

It is also used as a renewable source of gr^en masure
Koobabul trees can be used as wind breakers '-around
the farm lands and provision of shade

Some spacious produce gum or their trunks which'' g;
'*

iI

.
,
' 1
be used in various mdustrees - dyes, paper, pu3£>l

veruk yeast, alcohol.

It also has medicinal

properties <• for stomach diseases contraception J

/f\ \
ans as a abort facient.

The economics of Koobabulfx

have been worked out for various uses in BAlF ex
perimental farms

/

1)

For Fodder - Koobabul can bo
produced at a xost of Rs 3.96 per quintal

ii)

As green masure - Kocbabul can be used at Rs l,\10O.C

per hectare (25 tonnes)
As wood it can be produced at Rs 26.32 per tonne
of wood

iv)

For seed production it can be produced at
Rs 2.86 per Kilogram of seed

3.

Studies on Milk replacers

A misture of lucenne

juice, skin milk, soyabean and tallow has been
formulated to produce a milk replacer for feeding of

calres.

For 90 days feeding cost it was found that

whole milk fed to cattle costs Rs 1,142.76 and the
animal shows a weight gain of 515 gms perday, whereas
the milk replacer costs only Rs 462.25 and the average

weight gain was only slightly reduced to 493 grms per

day.

This product is being further researched since

its use could make some p impact on the economics of
dairying.

This type of research is very meaningful when dairying
is being promoted for marginal farmers and landless
labourers since marginal lands can be used for

fodder generation or reutilisation of available
wastes which would greatly reduce maintenance

costs.

KISBORE BHARATI (MADHYA PHADt&i)

A group of individuals with diverse professional background

intfud-ing field level experience in rural education and
development, gathered together in 1970 to evaluate the

strategies for rural development adopted until then and to
explore alternatives.

The members of this {forking Group

undertook several field strips to study the work done by

Gandhian and non-Gendhian agencies in rural areas.

As the

ideas became clear, efforts started for financial resources,
land and volunteers.

Hie Madiiya'-Px'adeul Government gave 150 acres of land to

IfiLshore Bharati to organize its activities in May 197Z in

Hoshongaoaii Distrxcc.ef-rlavhyia.—^iradefia'y—eHow,ed—•

me purpose

ox txio Association was to experiment in rural education and to

start, promote and assist educational institutions with a view
to cultivate free blinking, and an innovative and enterprising

spirit among the children of Indian villages.

l-hatever is done at KLshore Bharati is guided by the principle
that the relationships it builds up with the surrounding

population be totally free of any touch of charity, patronage

or dependence.

Its performance must encourage local initiative

and promote grass-roots organisation.

The clearest indication

of success will be the speed with which the villagers assume

responsibility fbr teir own development and thus, render the

services of institution superfluous in course of time.

The various activities undertaken by Kishore Bharati are as

follows.

The ring well system for irrigation was introduced.

This technology was found suitable fbr sandy soil of the area.
Under the agricultural extension programme high yeal di ng varieties

were introduced and experiments on composting and pasture
were carried out.

Science teaching programmes were undertaken

to introduce qualitative cnanges in the fornal education
system within the constraint of Government administration.

Under this programme the discovery approach to learning of
science was introduced in 1 6 schools.

A non-formal education

programme was carried out with a group of 8 boys.
classes for landless labour were conducted.

Literacy

Studies have been

conducted on health services available and special exibitions have
been held to make the villagers aware of the link between

poverty and malnutrition and health problems.

The cattle development programme is one of tho activities of
KLshore Bharati.

They had the benefit of the experience of

Friends Hural Centre, Basulia, which had been working in the

field of cattle improveaent for a some time.

The Friends Hural

Centre had attempted to introduce artificial insemination in

the area.

They had faced two major problems.

The storage

of frozen semen was made difficult because liquid nitrogen had
to be brought from Bombay every week.

administrative problems and costs.
because of spoilt senen.

This increased ’the

Many inseminations failed

The second problem was that a

qualified doctor who could properly service th© cows was not

available.

Artificial insemination is a fairly complicated

technology.

The cow must be in heat, servicing has to be done

at the proper place and the equipment has to be handled

hygeinically.

The cross-bred technology requires regular

medical follow-up and vaccinations, whthout which the cattle
tend to be veiy suseptible to diseases.

At KLshore Bharati

it was tiierefore decided that instead of the artificial
insemination, they would start by keeping cross-bred bull.

A cooss-bred bull and a cross bred cow were brought.

Thia

dairy evoked considerable interest among the people in the area

Groups of fanners used to come and watch the cow giving
’6 to 18 litres of milk every day.

Gradually, people began

to bring their cows to the Kishore Bharati for servicing.
lit the first year,

out.

76 successful impregnations were carried

The maintenance expenses of the bull worked out to

abour Rs 4,000.00 per annum.

It war found, however, that most of the cows serviced
belonged to the better-off sections of the village.

This

was partly because the snail cows belonging to the weaker
sections were scored of the big bull.

Gradually, more cf the

weaker’ sections began to bring their cows for servicing.

A group of landless and small farmers were excited by the idea
of purchasing cross-bred cattle.

They had discussions for months

with the manbors of Kishore Bharati to understand how feasible the
preposition was.

While these discussions were going on,

Kishore Bharati was also involved in designing the selection
procedures for the staff of the Regional Rural Bank of the

area.

The Chairman of the Bank was visiting Kisiiore Bharati

frequently,
farmers.

he was impressed by this highly motivated group of

The Chairman took personal interest and had these

people financed under the group guarantee scheme.

consists of 5 landless and 3 marginal farmers.

This group

Skis-g-seup

The marginal farmers were financed through their wives and sons
who were "landless".

The farmers went to Karnal and with the

assistance of the National Dairy Research Institute there,
they purchased cross-bred cows and brought them to Hoshangabad.

Initially, the fermers were very confident that sell ing of

the milk would not be difficult.

However, the cows began to

give 16 to 20 litres milk every day and they simply were rot

able to sell it.

Through ‘the contacts provided by KLshore

Bharati to a hotel at Itarsi, they were able to sell

about 30 to 40 litres milk per day at Rs 2.00 per litre.
Wni 1 r-: undoubtedly there is a bigger market at Itarsi and
Jabalpur, each about 100 tai away, they were not able to

develop a regular clientle of milk purchasers.

The approach

of KLshore Bharati was to generate leadership and confidence

among than hence ’they did not take direct responsibility of
helping sell themilk.

They mainly held discussions and

suggested ideas but left it to the farmers to execute than.

These illiterate farmers had a great deal of difficulty in re
covering money for the milk shat they had supplied.

Unable

to sell milk, they tried to convert milk into khoa.

But

they were able 'bo sell khoa for only Rs 5«00 per kg, well

below toe cost 1

They ran into heavy losses.

Confronted with this problem of selling milk, the farmers
started reducing the feed of the cows so that the milk

production was also reduced.

The situation as it charged

in the second year is given below:

Item

istjfear

2nd year

Straw

Rs 4.00

Rs 2.00

Green Fodder

Rs 5.00

Rs nil

Seed Concentrate

Rs 2.00

nil

Total expenses

Rs11.00

Rs 2.00

Average Income:

Milk

16 ltrs, wfls 1.50

=
Net Income

Rs 24.00

Rs 13.00
:====s===:=sa=s====—===3==:

4 ltrs ® Rs 1.70
=

Rs 6.80
Rs.4.80

It can bo seen that by starving the cows the fanners brought the

production of milk down to about 4 to 5 litres per day and
their incomes fell from Rs 13.00 to Rs 5.00 per day.

Thus,

the farmers today are barely able to meet theinterest
and insurance burden of Rs 750.00 per year against ths loan

of Rs 4,000.00.

Tho income of about Rs 2,000.00 from the

heifer would be an additional income for the farmers.

It was

impossible for the farmers to sell milk in the villages because
most of the vi Hagers who were in a position to purchase

milk had their own cattle.

The approach of Ki shore Bharati has succeeded considerably in

inculcating a sense of self-reliance among this group.

One

example was that they offered a sathyagragna at the railway
station because the Station Master was hassassing them in
issuing z. vendor’s pass.

Yet their problem of milk disposal

remains unsolved.

The farmers’ suggestion iss (1) The milk collection van from

the government dairy at Hosbangabad should be brought to
the area for collecting the milk; (2) The farmers should be

given furtner loans for purchasing a buffalloe.

This would

allow them to earn from the buffalloe to feed the cow in tire

dry periods; and (3) A moratorium on interest payments.

It appears viable for landless labourers and small farmers
to maintain cross-bred cows, provided a market is available for
the milk.

It is, however, dcubtlhl whether purchase of

high-bred cows would be the correct strategy because this

leads to a heavy debt burden.

It may be better to -improve the

local cows by cross-breeding- and this burden could be
avoided.

It appears that despite the group of fanners having talcen

considerable initiative in trying to sell milk, they have not

been able to become self-reliant in it.

The time is perhaps

too short to assess their ultimate self-reliance,

That,

Kishore Bharati is not willing to take the responsibility
of sailing milk could surely unleash their •s’e* creativity and
give them confidence should they be successful.

However,

it is also possible that continuous failures may "crush" their
enthusiasm.

It may be a better strategy that the catalysing

agency should take greater responsibility in marketing the milk
initially and make very concious attempts to devolve the

leadership to the villagers in due time.

This is an

experimentation that has to be carried out.

The demonstration, dairy at Kishore Bharati developed the motivation
among the farmers.

The financing was dona by the Regional Rural

Bank under a group guarantee scheme.

The Kishore Bharati

Contacts with a hotel in Itarsi was instrumental in selling
whatever' milk they are able to sell.

A government artificial

insemination centre has been opened at Bankhcdi some 6 ion
away.

This has now become very popular.

A veterinary doctor

is also available at Bankhedi.

Xue government structure provides sufficient facilities for

artificial insemination.

However, it is some times necessary

to pressurise the doctor ’to take his job seriously.

Raising

this conciousness among the vi 11 agers to pressurise the
doctor should be a significant roll of the catalysing

agencies.

Tire experiments at Kishore Bharati has proven that ifa Babul,
a hardy fodder crop introduced by the B.A.I.E’. can be

grown with virtually no water.

However, its results are

also not very good if not irrigated.

There al's other groups

of gi’asses which may be more suitable for an arsa.

It was

found that most small farmers own very little uncultivated
land which. could be used for such fodder.

Therefore, the

usefulness of these craps for smell fanners is yet to be
established.

Some of the other technological areas which require attention
are: technology for storing semen in coconut water or other

rurally available media; and low cost ciiilling techniques to

enable di stunt transportation of milk at low cost.

The training of local youth in veterinary practices

relating to cross breeding cows and executing, artificial
insemination is another component of a successful dairy
project.

CONCLUSIONS:

Technological Issues:
1. Feed.

Milk production is a feasible proposition only if sufficient
feed is available in the village without causing diversions

of productive Land which could be utilised for growing

foodgrains.

The availability of agricultursl wastes like

straw, malberry stalks etc. haveto be assessed.

Moreover,

research of useing agricultural wastes like begasse as

feed may bave to be undertaken because they may not be
readily useful as feed.

A large number of wp crops are now

available from our research institutions which could grow on
rocky, sandy and other types of unused lands and under saline

water irrigation. It is necessary to bring these various
the
crops intoZarea-s and assess if any of them could be successfully
on any marginal land and that catle availability.

It has been shown that grain fodder may not be absolutely
necessary for obtaining a high yield of mi,Ik provide sufficient

amount of straw and other feed consentrates are provided.

This

is to be kept in mind because green fodder has typically
to be grown on irrigated Land which could be otherwise used
for foodgrain cultivation.

It is very necessary to prevent a shift of cultiviable
land from foodgrains to fodder crops because the food made

available per acre of foodgrain is about 10 times compared

to the foodgrain made available for human consumption through

fodder and dairy combination.

2.

Cross- breeding-

It is an universal conclusion that it is better to up breed
tire native cows instead of importing cross-bred cows fran

other areas.

This is has various advantages.

(i)

The native cows have lavge much greater resistance

to the diseases prevelent in that area.

Hence their

projing also have a greater disease resistance.
(ii)

The cows bom in the village itself are more

accustomed to the cultural practices of maintaining cows

prevalent in the area.

It has been found that when cross

bred cows from another area have been brought into the

village, their habits of feeding wasliiig calving are quiet

different and the villagers find it difficult to adjust
to these cultural practices.

I
(iii) The cost of up-breeding the native cow is only about
Rs 25.00 per insemination.

If 100 per cent exortic sonen

is used, in two years, 75 % exortic cows can be produced at

a very niminal cost.

As shown by the experience at KLshore

Bharati, the interest burden comes to about Rs.750.00 per
cow and is an unnecessary burden on the farmers.

(iv)

Some times the cow is considered sacred in the villages

and there is an unwillingness to service them by artificial

insemination.

In such situations, demonstrations of the

high yealds of milk that could be obtained from cross-bred

technology reduces the resistance significantly and

it may be adviseable to bring a cross-bred Bull into the

area initially enable the villagers began to understand
the technological motivations of cross-breeding.

(v)

It has been established that the percentage of exortic

land in the cattle should be increased beyond 60 or 75 per cent
Beyond tins, theaHP-t'-eepen they are responsible to diseases
and their needs of medical care and vaccinations are very high.

3

(vi)

Within the exortic blood there are various types

like denish, gereey holstein.

It has been found

that some of them are suitable for an arda and

others are not.

Sufficient experimentation has to

be done to determine which type would be most
I

/

suitable for particular area.
I

The government veterinary services and artificial
insemination structure seems to be as egfi'iciente

effective in terms of technology.

The problems
\

of government beurocracy often make their functioning
inefficient.

Under such circumstances, a pressure

group approach which would force the esisting \struc-

ture to work smoothly may be more appropriate that
' \\

providing an alternative veterinary structure

wesk through the capitalising agencies.

/

1 \\

A

.

A

It may be that artificial insemination amount to be;
permanently required.

Once the exortic blood in

locally available cattle has been raised to 60 to 75

per cent thenseforth it may be acceptedly to deve
lop a bull from the local projeney.

The cost of

maintenance of a 60 to 75 per cent exortic bull

comes to Rs 3000.00 per annum, which is much lotver than

the infrestructure cost required for an artificial

insemination centre.

Therefore, one could think

in terms of an artificial insemination strategy for

the first few years only.

4

MARKETING;

The entire viability of a dairy scheme

depend upon

the ability to sell all the milk produced at a rate

of not lessthan Rs 1.50 per litre.

It has been found

that for an individual dairy it helps to have a

market within 50 kias and it becomes expensive to cater

to a market more than 100 kips away because the
transportation times increases more than 4; hours and
a chilling plant has to be installed.

Selling of the

milk requires development of a cliental which would
regularly purchase the milk directly and pay the
price paid by a soneumer.

The price differencial

between supplying milk to the consumer directly and
to a government dairy is around 30 paise per litre.

The experience of Malur Cooperative indicates that
such a cliental could be developed in a city but it

requires some

business acumen.

It is not practical to them in terms of selling milk

within the village because almost every home in the
village has a cow and produces sufficient milk for
its own consumption.

The milk has to be necessarily

sold in the urban areas.

It has been experience

of the Amul co-operative that because there are a large
number of widely spread out milk producers and a fewer
major milk consumers in any city in the bargaining
price, the price tend to be determins more by the

purchasers rather than the milk producers *

The solution

proposed is that various milk supplying cooperatives
in the area should be installed so that they could

5

set and obtain a price collectively for their milk

produced.

The experiments of Amul co-operative whereby the milk
produced in a couple of districts are

virtually meeting the needs of the whole country is

very significant.

It implies that as this stand

presently there may not be sufficient market for
selling milk pre-jeefee produced in various areas.
It is therefore, wiser to them of only as at milk pro
duction as could be sold in that area itself.

It

would be wise to ascertain whether any other major
milk production schemes are likely to be initiated
in the area before initiating this work.

Although it may not be possible to sell milk products
on a national market, hoiever, if milk prosessing and

preservation techniques are developed, which could be

used to convert and retain milk products, then,
it could be useful to convert the surplus milk
in a serplus seasdnq and sell those milk products i n

a lean season.

Most of the milk processing techniques

presently in vogue, are highly centralised and

capital intensive.

Research at decentralised labour

intensive milk processing techniques would be very

useful.

ORGANISATIONAL ISSUES.
The main crucial organisational consideration that
mostly dairy has to be come an activity utilised by

the already well off sections of the village.

better off sections have plentiful availability

The

6

of agricultural wastes like stnaw and malburry stalks

they have

marginal land at their disposal to be

able to grow fodder, they are more educated and

aware of modern teeehaiquee technology and are more
easily pursuaded to

adopt newer techniques,

they have a financial strength to both invest in
new technology and also to bear any risk that

maybe involved.

Therefore, it is in the

industrial process that the first financials af

any milk co-operative are the well off sections
in the village.

Technologically, it has been shown that greater

individual attention to cows can increast their milk
yield by up to 2 litres per day.

Therefore, should

the infrestructure be made available to the landless
and marginal farmers, they have an advantage over the

better off sections in that they can provid much
greater attention to the cattle.

It is therefore, essential that the catalysing

agency intervening conciously on behalf of the
poor.

This implies that the emphasis has to be

not on mear expansion of production but on
generating a self-reliant economic activity among
weekersections even if it takes longer time.

A co-operative society can provide the basic

structure for undertaking this work.

The kind of

facilities that it may have to provide could include
the following*

7

1.

Arranging for artificial insemination or a cros

bred bull and maintain it.
2.

Providing a cash or material encentlve per

insemination to the farmer to initially encourage
them to accept cross-bred technology.

This has

been found successful in Anand.

3.

Agricultural extention facility

to providing

cities and technology for growing fodder crops in

dry and marginal lands.

\

4.

Supplying feed eeat concenters regularly.

5.

Giving loans during dry periods of the cattle

to enable landless and marginal farmers to feed

them.
6.

1
Providing loans during periods when straw is x

plentifully available at cheap price to enable
landless and marginal farmers

to purchase and stock

it for their use throughout the year.
7.

Marketing and processing of the milk

It has to be a concibous effort on the part of the

capitalising agency to solicit the participation of
a large number of weaker sections.

While the facility

should also be expanded to the better off sections,
it has been seen that in any case they are more ani-

mable to expecting newer approaches.

8

The experience of Kishore Bharati is extremely signi

ficant in the adta demonstration of a cross-bred

dairy technology motivated a group of landless and
marginal farmers to adopt cross-breed technology.

This indicates that the weaker sections can be

benefited.

However, it has also been the ejq>erience

of Kishore Bharati that unless the weaker sections
were separated in organising marketing, they were

not able to cope up with the development of a
regular urban clients.

These, ifat maybe necessary

for the capitalising agency to provide this organis

ational assistance for some time until the leadership

from among the weaker section is generated

wh±dh

can handle these tasks.

The other roll of the capitalising agency is to

inter-weave the dairying activity with other rural
development activities.

Most important perhaps is

a

education programme.

healthy and nutrition

Some doubts have been expressed whether commerciali

sation of milk does not increase mal-nutrition among
the children of the village.

Under the treditiondlXy

system, the native cots are feed nominal agricultural
wastes and produce from small quantity of milk which
is consumed 'within the village.

When with the

introduction of cross-breed technology, milk becomes
the commercial commodity, there may be a tendency of

part of the weaker sections to sell the entire milk

and deprive their own children of thet vital nutrition
that they were obtaining from the native cots previously

Therefore, a programme for health and nutritional educ
ation should be simultaneously undertaken

9

It has been found that the introduction of cross

breed technology also makes the villagers more
open towards family planning.

The health programme was effectively appointed with
a milk co-operative on Malur and similar process is

on way •E&. at BAI? and Anand.

At Kishore Bharati,

various activities like agriculture extention,
science education etc are already being simultaneously
under-taken.

As a rural development agency, one has to aim at
integrated development of the village ’which may

that alongwith starting a dairy activity focused
at the weaker sections.

Such health education

and other economic activities could also be under-*

taken and a dairy co-operative makes it more

convenient to do so.

A dairy activity appears-feasible in a village under
if the following factors are suitably met:

MODEL SCHEME

The scheme presented here is only by the way of

suggestions and general guidelines to be suitably
modified for the local situation.

A Cooperative

milk society should be initiated in the village.
The focus of the society would be to obtain the

participation of the landless and marginal farmers
in particular.

It is essential to farm

an

indipendent cooperative society which alone can
make the villagers self-relient and generate a feeling

of self-confidence in them.

It is strongle advised

that mear introduction of cross-bred technology and
other such social structure is not adviseable.

The

near growth to collection is not rural development.

In the initial phases, the society can undertake

demonstration of dry forming for fodder crops and
introduction of cross-bred technology.

The reason

involved can be under written by the agency. In th e
of
initial period some insentives te? some Rs 25 per

artificial insemination may be introduced for ass
isting acdeptability.

While it is advised that

this demonstration may be carried out on the lands

and cows of small farmers themselves, however, under
certain conditions it may be necessary for the

catalysing agency to initially undertake these
demonstrations itself.

Once, the milk marketing structure is stipulised,

the cooperative society can expand its activities
in various ways like provision of feed consentrates
provision of loans, milk processing etc.

It is

assumed that the government structure would

provide the artificial insemination and veterinary
facilities.

If these are not available, it is

suggested that the agency pressurises the government

to make this facility available.

The basic

strategy proposed is to improve the breed of
native cows rather than import cross-bred cows

into the area.

Along with the expansion in the nature of activity

undertaken by the cooperative society the second

line of approach would be to multiply such societies

It istas has been

in our surrounding villages.

found that as the number of milk supplying co

operative societies increases, they find it difficult
to maintain prices in the urban markets.

Hence,

unionization of these cooperative societies would
have to be undertaken in due course.

Along with dairy activity, it is necessary to under

take health and educational activities in the
village.

Details of these activities have not been

given as a part of thasa: report.

In the initial

period these activities could assume the form of
welfare to gain acceptability.

Simaltaneously, the technical research wing is also

proposed.

In the initial periods, the research

would be of adoptive type.

The two major areas

would bo,utilising uncultiviable land for fodder
gnp crops and introduction of suitable crops for

the same and ascertaining the exact type of

3

exortic breed that would be suitable for the
local conditions.

These research could be

undertaken in colloboration with some scientific

institutions.

LOCAL FACTORS TO 13E CONSIDERED

1.

An area where there is some tradition of cattle

breeding and hopefully some marketable surplus

of milk is already existing, may be more suitable
because the agricultural practice relating to

maintenance of cows are already existent.

This

is important because the beginning of cross-breeding
has to be done from the native breed of cattle.

2.

Feed should be available either from agricultural
waste or from arg marginal lands not otherwise

utilisable for food crop cultivation.

3.

Sufficient water should be available for the
cattle.

4.

Veterinary services are available at nominat costs.
It seems that the government infrastructure may be
sufficient to provide this facility and the task of

the rural development agency is not to undertake this
expenditure itself.

This should be done more bjr

coordination with the government structure.

Where

government cannot proive this veterinary service,
then this has to be either financed by the co

operative itself or by the rural development
agency.
5.

A critical mass of atleast about 50 cows should
be possible to be introduced.

Mere introduction

of a few cross bred milk cattle to 20-25 villagers
may be unwise because the marketing training and
veterinary services may be difficult to proirtde.

2

From the cross breeding point of view, 50 cows is

still a small number, however, 50 cows would be thd

barest minimum to make a marketing activity
feasible at about 250 litres per day.

6.

A market should be available preferable within
50 miles of the area so that a chilling plant and

its expenses are not necessary.

Transport facili

ties should be available.

7.

Contact with some training institutions to trata

some village people into the practice of cross
breed cows shouls be available.

INITIATION OF Tin-: PROJECT

The point of initiation would depend upon the

local conditions.
a)

If cattle breeding is already existing in the

area and there is some marketable surplus, perhaps
the organisation of a milk marketing cooperative k

sould be the proper starting point.

This would

immediately give some benefits to the participants

and establish credibility.
b)

The second approach would be to start with

the demonstration of feed production on marginal

land and to start along with

it, a small cross-breed

diary of say 4 to 10 cattle, which serves as a

demonstration only.

This could have confidence to

the villagers in this technology.

This demonstra

tion could be done by fully financing some small
farmer of the village and subsidising their

capital and underwriting their risk.

Even this

group of small farmers who are part of the
demonstration should be formed into a cooperative
at this stage itself.

Any time taken and delays

caused in the process of cooperation should not be

considered.

Time wasted since this lays the

foundation for their self reliance,

^t should be

noted that such a demonstration may not be economi
cally viable and initially because of its small size

and may require some assistance.

If some of the

landless and marginal farmers do not even have
native cows to initiate the cross breeding process

but are willing to join such an endeavour they

should be assisted to obtain small loans to buy
native cows and initiate the process of cross-breedin

therefrom

2

If the agency has no background of developmental
activities in the village concerned it could initiate

its work by some small welfare activity like repairing
of school building health centre and wells.
given the agency a certain hx creditability
and helps it in obtaining acceptability.

This

The benefit accruing to the cross-bred cattle

owners in the project area will vary greatly

depending on local conditions particularly with
reference to availability of feed and market as
has been shown in the four case-studies.

However

the following may be taken as a reference point
for expected benefits to a landless former who

already owns a native cow

Expenditure:

1.

Feed - Straw
Green fodder
Concentrates

300
400
750

1,450
2.

3.

Interest (on 2,000 rupees
@ 1C$)

200

Depreciation on Rs.2,000
@ 15%

300

1,950

Income;
1.

2.

Milk Yield - 2000 litres
@ 1.65 per litre

3,300.00

Sale of calves

500.00
3,800.00

Nit income = 18.50

note.;
a)

It is assumed that no capital expenditure

is actually incurred and cross-bred cow lias been

developed from Al of native breed.

b)

Ths price of milk varies considerably from

1.20 per litre to Rs 2.10 per litre.

We have

taken a typical price of Rs 1.65 per litre.

c)

For a landless farmer

who can provide green

fodder from his labour by mulberry stalks,

sugar cane tops etc the Rs 400 provided for

green fodder would be an additional Income.

THE BUDGET;
The budget suggested below is for a project area

where the government infrastructure for provision
of artificial insemination and veterinary services
is easily available.

Where this is not so the rural development agency
may try to pressurise the government structure to

extend these facilities to their area or it may

incur the expenditure of providing a cross-bred bull

or Al and veterinary services.

Items 1,2 and 4

of the budget below will be required mainly for the

first year.

However, it is assumed that other

developmental activities will be undertaken in

subscequent years and hence the total Expsx expend
iture per year may remain the same.

^hejjud^et
1. Subsidy or under writing risk for
demonstration of fodder crops and
cross-breading or the lands & cows
already existing with the small farmers

10,000

2. Initial welfare activities and long
term health education programmes

10,000

3. Salaries

a) Project officer Rs 1,500/month
b) Two field assistants at Rs 250
per month
4. Training of staff

18,000

5. Literature, audio visual aids

5,000

Farmers visits and other
extension work
6. Adaptive Research
7. Travel and contingencies

10,000
6,000

6,000
5,000

70,000

PHASING

The first six months are suggested to be used for

a detailed survey of the area, ascertaining whether

dairy would be a feasible proposition and initiation
of their welfare activities for giving acceptability.

The next 18 months are suggested to be used for

demonstration of the cross-bred technology and

expansion work in agriculture and the initiation

of a milk marketing cooperative society.

The next 24 months are suggested to be used for
horizontal expansion of the cooperative society

in activities like organisation of food supply,
p ovisionsxixkE loan, ihilk processing ect.

The

unionisation of cooperative society should also be
under taken.

This covers 4 years of the scheme.

Next one year

may be planned for phasing out of the involvement
of the guidelining agencya and initiating new

projects in other villages.

KEY PERSON

For the purpose of any development work in a

area the experience all over the country has

shown the need to identify a good catalyst
who can initiate the project and work towards
self reliance by the local community Experience

has also shown that such a person should be about
25-35 years of age, preferably married (more accepable to villagers) ready to live in the village.

It is not necessary that he should be by profess

ional training a vet or Agricultural scientist

though this would be an added qualification.

He

should however have demonstrated professional

competence in fcks his own field and have a

managerial flow.
Since the project work is not merely the running

of a milk cooperative but will need further sxpHKX
expansion into other development activities and

generation of self-reliance and also an ability
to see rural development and processes of social

change in a totality, it requires high

profe

ssional competence and motivation and hence the

need to identify such catalysts.

A certain freedom

to interact actively with local realities and
plan, innovate and be creatively involved with
the development activity will be a precondition

for such a key person to initiate self reliant
development process and must be kept in mind while

employing such a person.

TRAINING

Technical competence and understanding of Dairy
Development methods can be acquired by allowing

the key person a certain period of 3-6 months to

visit ITDDB, BAIK, Kishore Bharati and other agencies
to understand key issues and undergo basic training
and observe existing projects.

This type of non-

formal training will be of greater help to pre

pare the individual for the project development.
Ad hoc arrangements are possible with all the above
agencies where such training can be obtained.

Wherever courses for village level workers are

sm also available as in BAIF, NDDB and IIDRI, the
village level assistants may also be sent for
training to provide primary facilities for the

beneficiaries of the project.

.

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TOR STARTING

SCH^i-iS

SCAL.S DAIRY FARMS

SMALL

INTRODUCTION:-

Dairying
by

a part

as

since

farmers

capacity

animals,

of

facilities,

agricultural

economy.

Beginning with a

Many

due

dairy farms,

higherto

he-ar-d

had

come

have

changing pattern

to

of

enterprise.

some

information on

operation has

To

been felt.

basic

such

fulfil

a profitable

of

this

schemes

have

costs

the

need,

a

the

starting

cross-bred animals

dairying is

for

lack

in

economy.

agricultural

practices,

need

a

for

forward

alongwith. good, management
The

and

low priority

a

high milk yielding

of

low yielding

feedihg materials

dairying

farmers

such as

factors,

of

practised

has been

operations

to

Due

times.

non-availability

of marketing

small

agricultural

the

of

ancient

been

prepared.

there

In presenting,

should

be

is,
by

understood

certain

following

person who

any

is

are

points

wishing.co

These

assumed.

take" up

this

profession.

1)

Only

2)

Sound management

high milk yielding

breeding

and

are

culling

3)

That

'4)f

That measures

5)

That

6)

Suitable

7)

Money

for

capital

8)

a)

In

the

case

of

housing

for

calves,

there

there

ted

is

schemes
and

throughout

the

diseases.

from

of milk

so

produced.

acquired.

forthcoming.

is

smaller numbers

labour

farmer

charges

and

been presented

of

animals

jjasit is

his

family)

for

the

expec

has

not

the

year

trained

person

run

work

sound.

strength,

or' the

it

would

farmer may

.

to

give

any

detailed information

farm for which

one

should

purport

the

of

herd

manage

small

farm

prepared

to not

to

of

provide

the

to

running

to

economically

and bigger

capital

a

than

and more

benefit

labourers

agricultural

training needed

actual

the

on

by

have

to have

get

schemes

The

with

store,

landless

requiring large

desirable

himself

animals

disposal

recurring expenditure

schemes

in

the

for

supply.

the

protect

are

equipment

and

timely

feeding,

included;

farmers

be

to

regular market

and

be put

These

Farms

a

be maintained.

will

balanced

followed.

taken

be

cows

as,

such

source of water

adequate

will

land

to

been
b)

is

bred

cross

practices

refer

to

published/printed materials.

It

is mentioned
develop

and

herd

selection.
and

to

gains

be

a

capital

The

The

roximate

it

the

for purchase

give

animals,
and

for

to

better

bigger

sizes

develops

it
of

would

the

the

from

rate

for

of

place'to

is

as

and

a

small

culling

skill

by

and

this

this may be

found

heavy initial

reduced.

construction
sale

with

suitable

Though,

economical,

animals

costs

and

bo

start

by

experience

in herd management.

feeds

may vary

always

to

also

farmer

confidence

is

herd

slow process,

figures

ipment,

that

of milk,

place

and

of

buildings,

etc,

time

to

are

only

equ-r

appy

time.

2/-

: 2 :
SMALL SCALE

A.

UITH

BRED

CROSS

TuJCl

COSSg

s-

Expenditure

Capital

i.

FARMER

DAIRY

Livestocks

Adult

milch

Iii.
/

Buildings
Cow byres

iii.

Equipments

pails,

Milk

x

8*

x

2

animals

(O.B

10'

buckets,

Rs.3000/~

Sq)

Rs.1500

x

chairs

Rs. 60 00

per

sq.

Rs. 1200

Rs.

□t c»

100

Rs. 7300

B,

Expenditures

Recurring

Feeds

&

Green

Fodder

Fodders

1150

Rs.

Fodder

Rs.

500

Concent sat os

Rs.

2170

flilk

■

190

Rs.

730

Rs.

900

Rs.

60

Rs.

150

Dry

for

calves

a)

Capital

on

Interest
10%

Rs.7300

on

b)

Dep.

c)

Dep.

d)

Vety.Charges,

on

15%

5%

&

at

animals

Rs .6000

on

Buildings

on

Rs. 1200

on

Rs. 4010

expenditures

of

Mjsc.items

/

Water

Elec.Charges

etc.

Rs,

1840

Rs.

5850

Rs. 1.26

Rs.

7200

Rs-. 10

Rs •

40

Rs.

1000

fis.

10

Rs.

8250

Rs.

2300

Rs.

33.0%

—

T otals

C.

Incomes

i.

Salos

Milk

2

ii.

Return

ii.

Appreciation

iv.

Salo

x

mala

of

19

of

2x2 Tons

young

calf

•

Kgs.x300

manure.

from

3

stock

days

x

females

oldI

1

x

Rs.10

Totals

profit

Net

Percentage

a)

Rs.8550-Rs.5850

expenditure

income

over

fixed

investment

Requirementst

Green

fodder!

Adult

cows

Calves

2x25x370

-

18,500

Kgs.

1x15x300

-

4,500

Kgs

x

23,000

b)

of

-7300

Rs.

Feed

over

5

paise

per

Kg.

Rs.1150

Concentrates!

Adult

Dry

cows

cows!

Calves

at

in

milk

2x65x1

0.5

Kg

/

pBr

2

yield

180

10

Kgs

of

milk

-

2x4x300

-

2400

Kgs.

day -

x

365

days

-

183

Kgs.

Rs.

2174

Kgs

;

c)

Dry

•

Fodders

cows

Adult

,

3

Calf

cows

—

2x4x370

days

-

2960

kgs

-

1x1x270

days

-

270

kgs

k

15

489-00

OR

3260

d)

months

2^

upto

calf

5x75xRs.1/-

1x2-

2/

at

Requirements!-

Land

If

the

at

33

c)

Rs. 500

kgs/day

OR

Rs.187-50

--------------------------------

area

entire

fodder

For

under

is

23,000

of

production

guinea,

any

Rs.190

Rs.4010

TOTALS

GRAND

b)

kg

Milks
One

a)

/

p.

para,

P.A,

Kgs

1/2

hybnapier

acre

or

60.75 tons/acre/annum.

If maize

4

crops/yoar

65

cents

or

30

If

maize

50%

l/3

acre

maize

of

total

50% at

lucerne

and

acre

1/3

all the

Among

at

2/3 acre

tons/acre/annum,

40

or

guntas

above

total

yield

of

40

or

65

cents

tho

one

acre

2/3

lucerne

croopirr(programmes,

tons/acre/annum,
30

of
at

shown

guntas.

C

is

most

suitable.

SCHEME

A

A.

CRO_SS

FOR TEN

BRED

CPUS

DAIRY

FARMS

Expenditures—

Capital

Livestocks

i

Adult

milch

animals

Dry

cows

2

One

pair

of

8xRs.

2500

Rs.2000

x

bullocks

Rs.1500

-

j.

20000

Rs.

4000

Rs.' 1500
Rs.25500

Buildin os s

ii.

i.

-CoV byres

iii.
iv.

Vtt

Pump-house
Servants

i)

Well

ii)

Pump,

iv.
i.

ii.

&

Implements

20

dia

x

water,

pails,

Recurring

i)

ii)

Rs. 1500

30

Rs.8000

3000

4500

Rs.

Rs.

31000

Rs.

13000

Rs.

2000

Rs.

71500

--------------- --------------- Rg.

21235

Rs.

15Q0

—

Rs.5000

bullock

power/hand

TOTAL

cart

CAPITAL

Rs.

1500

)

Rs.

500

/

INVESTMENTS!

Expenditures—

Cost

of

Dry

fodder

i.

x

sq)

'■haffcutter

i.

iv.

Rs.

Rs.1500

equipments,

ii.

iii.

1500

Rs. 1600'3

X

20x15U.
0OQp

6000

Rs.

Rs.

10

2000

so)

accessories

GRAND

B.

x

10

EguipmentsS-

Agricultural
Milk

Rg-;

sq)

10x20(2

quarters

0’fice/Store/F?harmacy

iii«.Wells-

x

Sq)

(l.O

10x8(.8

Rs.1500

x

Sq)

40x10(4.0

ii.“ Calfshed/bullocks

feeds

Concentrates

Milk

Labour

for

Kgs

Kgs
x

14235' Kgsx

calves

charges

labourer

122100

22200

at

1125

x

Rs.120

x

15

75

5

ps/kg

ps/kg

ps/kg

Re.l/kg

p.m.

per

Rs.

6105

Rs.

3330

Rs.

10676

Rs.

1125

person/

4/-

Misc.expenses

ii.

iii.

on

Dep.

Charges,

Buildings

wat er,

635/-

Rs.

15^(25500)

at

animals

-------- do—

Vety

like,

etc.

electricity,

%

at

’ (16600)
on

Interest

-

57100

— (A)

£et_u.rns:

which

(e)

milk

of

Sale

Income

from

Sale

the

of

OR

200.0

x

24

2

tons

age

of

animals

6

male

x

Rs.

36150

Rs.

240

calves

700

x

birth

at

17165

per

animal

per

Rs.

in

Kgx1.25

female

of

year

one

stock

young

of

1500

10

of appreciation

Value

at

2

Rs.

number

average

~

840

Rs.11000

5710.)

manure

annum(2x12)

(C)

-

6x3135x10

3825

Rs.

1

at

(Rs.

Rs.

10

Rs.

4200

Rs.

40

Rs.74780

Met

income

on

expenditure

necessity

Rs.

annum

per

74780

Rs.

2830

Rs. 34150

Feed

requirementss—

i.

Green

Fodder?

No.

adults

of

10x20x370

(Cow)

Calves

ii.

iii.

8x14x300

fodder(probably

of

adult

No.

of

bullocks

2x7

Kgs

Y.S.below

1

year

Kgs

I

33600

Kgg

\

Hariyali

Kgs/dayx370

10x4

per

370x1x6 -

Hay)

Kg
Kgs

dayx370

22200

Kgsx15

ps

Average

animals

at

dry

x

10

day

Kgs/Animal

2x1kg/day

x

2x1kg/day

6

14S1D

K^gs

5180

Kgs

2220

KgS

22200

Kgg

Rs. 3330

per

milk

Youngstock

Kgs

122400

Concentrates?
Average

Bullocks

iv.

cows

14800

ragi/straw &

Dry

No.

No.-of

I

7400'jKgs

2x20x370

Bullocks

x

8x4x36'5

365

0.50

11740

Kqs

730

''-gs

1730

"

1095

"

10676

Kgs

365

kgs/day’x

365

Milk:

Milk for 6
day ® Re.1
Land

calves
per kg

requirement

2j; months @ 2.25 kgs/head/

upto
of milk
for

cropping sequencies
suggested

at

6x2.5xRe.1

fodder
could

be

Rs.

production(Any
made

use

of

of

the

1125

following

preferable th;:

one

(f)

«... 5/-

5

8

Total

a)

green

If the

area

is

60

tons

per acre

x

1)

60

If the

per
d)

If

the

area

is

under

maize,

4

Lucerne

p.a.

crops

and

40-1280 0 0

x

10

@

tons

3.20
other

half

50,0 0 0

acre

Lucerne

40

x

1.25

Guinea

60

x

1.25 acre

75,000

~ zTso
e)

If the

acres
f)

is

one

maize,

50%

40

128000

Kgs

-

50%

lucerne

3.20

If

1

lucerne

40 , 000

1

Jc?SrSn^rdsgruterne

60,000

acre

0.75 acre
2.75

125000-2.50

1,25000

under

x

3.20

-

3.20

Kgs

10

the

grass

guinea

grass

perennial

3.20

.20x10x4 ©

acres.

under

area

guinea

annum

Lucerne

per acre. -

tons

crop

per

Kgs

2.25

unoer

is

40

per

perennial

Kqs.

at

acre

under

one

entire

If the

yielding
c)

13500 0

-

122100

p.a.

under

entire

yielding at

2.25

requirement,

fodder

:

under

maize

under

(4 a cres/year)

30,000

1,30,000

SCHEME

A•

TWENTYFIVE

FOR

Capital

expenditure;

i.

took

_Li_y

Adult

mii»n

Dry

cows

One

pair

Cow

i.

CPUS

cows

18

x

2000

36,000

)

7

x

1500

10,500

)

1,500

I

bullocks

1500

ii.

Bullocks

iii.

Pumphouse

iv.

Servants

52

20(10.5 Sq.)

x

10x8

(8

sq)

quarters

15,750

1500.Sq.

20x20(4 Sq)l250

shed

calf

Sq.

5,000

2000/Sq.

10x10(4 Sq.)

Offic-j/s/Store/Pharmacy

v.

1,600

1500

Sq.

6,000

10x20 (2 Sq)

3,000

1500/Sq.

iii.

Rs. 48000

-

res

by

FARM;

DAIRY

;

Building;

ii.

BRED

CROSS

Rs.

31000

Well?
i.

uJell

ii.

Pump,

40

wide

Motor

electrical

Implements

iv.

i.
ii.

deep

10000.0

charges,
Equipment

5

pipe

or bore-well

HP

bullock .cart

buckets,

Chaff

Investments

x

2"

Rs.15,000

R.s.1500

and

Rs.1000

balance

cutter power/hand.

Capital

700

8

pails,

tubes,

5,000.0

line.

Agric. equipment,

Milk

weighing

iii.

&

30

accessories

Total

Rs.

500

Rs.

30 OP

-Rs.9735O-

6/-

6

?

Recurring

B*

:

?

expenditure

t

Gear

I.

of

?

foods

10360

Grasses

i.

ii.

Dry

iii.

6771

Fodder

Concentrates

iv.

23270

1500

Milk

Rs.

41901

Rs.

6000

Rs.

18000

Labour?

II.

labour

Farm

Misc.expenses

III.

120/-

at

-

576J5

?

i.

Int.

on

ii.

Dep.

on

animals?

iii.

Dep.

on

Bldngs?

Cap.

9%

on

97350

15/

on

31350

on

5%

Rs.8761-50

8000

a loci.charges

Vety.Expenses,

iv.

month

Rs.

7200-00

Rs.

1567-50

Rs.

471-00

Rs. 65901

flEZQHIMS/INCOME

milk?

of

Sale

I.

?

10x365x20xRe.l/lOKgs/Animal/20

Daily/head

Animals

Sale

II.

of

x

animals

adult

manure/30

x
III.

young

of

Appreciation

8

years

Sale

years

12

of

at

the

end

wk

age

Rs.10

meat

1

73000

Rs.

600

at
of

year

1

IV.

Rs.10

stock

Rs.800

Rs.
2 tens

animal

Rs.

6400

Rs.

120

Rs.80120

Net

income

Per

centage

i.

Requirements

No.

of

370

x

adult

x

20

10

x

370

8

Followers
stock

5

25

x

x

8

4

Kgs

7

x

370

'

Dry?

45,

8

x

1

2

?

dry

Bullocks

in

5

milk

animals

Young stock

Total

10

Kgs.

1?

at

Adults

Young

-

370

—

x

370

X

140

KgS

x

15

yld

10

KgS.

Rs.10360

hay)?

37,000

370

7

14,800

hariyali

Kgs

5180

2960
Rs.

Paise/Kg

6771

?

Milk

2

x

straw,
x

Adults?

Av.

5

-

(Ragi

Kgs

Concent rates

?

year

x

x

Kgs.

KgS.

1

2

Total?

1

below

20

Kgs.

requirement

7400

Bullocks?

Cows?

II.

-

Kgs.

Fodder

Dry

daily

2

requirements

daily

18,5000

daily.

Intake
ii.

25

-

2

X

Rs. 1 4.6/o

?

cows

25

No.

Bullocks

Rs.14,221/-

Rs.97,350/-

of

capital

?

Fodder

Green

Rs.65901-80,120

expenses?

fixed

on

return

Feed

I.

recurring

on

at

1

No.

17

18

x

4 x

7

at

1

Kg/Dry

8

at

concentrates?

Kg

x

0.5

31,

Kgs/day

365

-

cow/day

365

-

milk?

26250

730

Kgs

7x1x365

-

1460

Kg/Dry

x

365 -

Kgs

x

0.75 paise

025

2555

Kgs

Kgs

Kgs

per

Kg

Rs.23,

270

Land

calves

8

requirement

following

Entire

area

Annum!

3.5

suggested

is

under

—

acre

x

(hf)

under
guinc:

x

grass

at

40

40

under

Area

Maize

60

at

4.5

5.25 acres

40

Capital

i.

acre.

ton

t •'.ns/acre

-

90,1’90

I

-

35,000

r

-

25,000

Kqs]

acres

40,000

40

60,000

acres

4.5 acres

2,20,000

Exjanolti.jrc

4.5

1,29,000

o-CiuHE

A.

5.25 acres

ncre/tons/uhnum

40
x

actual

40

x

acre

1

x

acre

4-1.5

fetal!

-

acres

tons/ncre/h<

—

1,500

of

actual

tons

lucerne

2 Acrss

Guinea

use?

60

Kgs

Guinea

d)

Rs.

of th-’

one

made

at

21,00,000

luccrnn at

area

2.25

Lucerne

guinea

Kgs

under

entire

Of

Half

be

(a).

—

R.?.l/-

.

at

69

at

-

could

lucerne

under

Kg/H<?d/D,aily

1

production (Any

sequcncies

acre/x/4o/-21,09.000

c)

x

75

one

Entire area

b)

x

fodder

for

cropping

preferably the

a)

2.5

2.5

at

2.5

upto

x

8

of milk

o

for

pcr kg

tC,

Wilk

w

miks-

iC

in.

F0 !TY

FOR

CitOSS

BRED

COliE

DAIRY

FARR

-

Live-stocki

milch

a)

Adult

b)

Dry

c)

Bullocks

2

x

x

32

»nws

5

sous'

Rs. 2509

Rs.80,000

Rs.2000

Rs.16,000

x

2

-

pairs

Rs.l'.OO

Rs.

3,000

Rs.99,000

ii.

Buildings
a)

'.

Dow f'ydres
Oalfshods)

,

House

x

10

x

20x20

-

4 Sq.

40

10

4/l6

x

si,,

x

24,000

1500

1600

6,000
16,000

bullocks
sq) Rs.2,000

z 8

b)

Pump

c)

Servants

d)

Office/st oiGs/phar.-^cy.

quarters

12,000

1f)x2ux3x5qx 1500

20x15x2(6 Sq,x1500)

9,000

---------------------------------

iii.

Well

:

iv.

open

either

Implement's

&

or

borewell,

Equipments

15,000

Rs.115,000

i

a)

Agri

imple.,

bullocks

carts

b)

Milk

pails,

buckets,

feeding

c)

Chaff

Cutter

2,500
etc.

’

Power

1,000

1,500

Rs.

Capital

62,600

pump

accessories

water,

Rs.

Expenditure

on

fixed

items!

4, 500

Rs.1,81,100

....8/-

8

_R_ccu:

S

3

ndit uro

a)

Green

t>)

Dry

c)

Gcncentrates

feeds

20,500

feeder

11,700
41,100

d) ' Milk

3,750

Farm

Labour?

8

Labour!

x

Interest

b)

Dcp.

on

animalss

c)

Dep.

on

Buildings!

d)

Vety.

11,520

Rs.

77,0 50

Rs.

11.520

Rs»

35,800

15% on'99Gu0/-

5% on

Rs.62600

electrical

expenses,

12

9% .an '181100

Capitals.

on

a)

X

120

3,130

charges

1,520

Rs.1,24,370

Il\l COH

s

a)

milk

b)

Returns

c)

Appreciation

d)

Sale

sales

cf

20

-

32x1-0x35

from

of

male

20

116800

40-4-20/3 -

manures

youngstock

youngstock

at

at

Kgs

x

1.25

Rs.1,56,000

50x.2-190x

Rs.1,01,000

end of

Rs.

1,600

Rs.

200

year

Rs.800/-

3 da ys

Rs .10/-

Rs.1,63,200

Net

Rs.1,63,200 -

profits

Percentage

income

fixed

Fned

•erne nt s

»

1)

Preen

)

x

x

370

Bui locks 3

40

-

invest

of -

Kgs

x

370

x

requirements3

daily

25

4

20

Calves3

1,24,370

Rs.38,830
21.4%

•

Rs.1,81,100

s

cowss

Adult
50

b)

Fodder

Rs.

capital

X
x

300

20

25

KgS/coW

Kgs

1 5

Kgs

Fodders

2)

Dry

x

Kgs

4,08,600

4

paise/Kg

Rs.

3,70,000

Kg

29,600

.

9,000

"

4,08,600

"

20,403

fodders (Maize/Ooujer/Kadbi/Harihalli-hay) s

cows

a)

Adult

b)

Bullocks

-

c)

Calves

-20

3

x

40
4

x

x

Total

4

x

Kgs

370

59,200

Kgs

7

Kgs

x

370

10,360

.

300

x

15

Kgg

7r200

Green

Fodders

11,594

Oii

Rs.11,700.^77,960

"
"

77,960

Kgs

x

15

Ps/Kg)

-.9/—

3‘)

Cpn cent rat cs

Average

a)

b)

2

?

(1

?

5
dry

8

365

x

1

animals?

Bullocks

4

at

1

d)

Youngstock

20

at

54,750

x

20

2. 5

x

x

1

75

0.5 kgs/per

day

under

guinea

under

maize

Area

under

x

0.75

1

x

acre

2

months

2-j

Re.1/-

per

per

head, x

3,650

1!

54,750

11

365

Kgs

-

Kg

Kgs

4,08,600

grass

4

Rs.4,063-50

at

the

kg

of

OR
x

acres

2 acres

acres

H

1,460

rate

of

milk
Rs.

408

60

x

x

6

3,

750

tonnes

tonnes

240

40

80

2 acres)
2

lucerne

Bajra,

54,750

per

ps

upto

4

x

4

Sowar,

day

Re.

Area

tonnes

Kg

46,720

cow

per

day

kg/psr

365

day @

per

Area

(10

nfmilk/day

kg

-

x

Requirements?

Green

per

kg

calves

20

for

Kgs/head

8.1

365

concentrates?

Total

2.5

x

4

2,920

c)

Milk

x

32

10

yield

milk

milk)

Average

x

in

adults

?

x

acres

40

80

Coypoa-

10

x

-

crops

20

tons

420

11 Acres for crop growing
2 acres

Total
15

for

area

acres

of the

would

fodder

Common

buildings,

raods,

be

farm

13

etc.

and

acres

if

ixpansion

their

package

is

envisaged,

atleast

of

required.

crop

rotations

and

for Southern

practices

Regions?

(Yield

per

Sowing

a)

Maize/cowpea

Dry

D.C.P:

T.D.N.;

300

69.0

4.8

41.1

300

69.0

4.8

41.1

15,9,15.11)

■ 3.7

750

1632

11.7

109.2

Maize/cowpea

10.11

300

369.0

4.8

41.1

1650

370.2

26.1

232.5

1500

250

13.5

175.0

1.6

1600

320.0

24.0.

185.0

1.9

1000

200.0

32.5

125.0

Hyb

1.2

cowpea
cuts on

Napier/Guinea

cuts

15.8,

15.5,

1.7,

1/3

1.10,1.12,

15/3

cowpea)

Controcema

Parasgrass

cuts

pubescence(8

30-45

d)

Green

?

1.2

(6

c)

Quintals)

21.4

maize
(two

b)

hectare

days

integal)

Lucerne

10/12

30

at

days

at

cuts

Co-op?

1

1)

Maize

Cowpea,

2)

Maize

4)

Maize

cowpea

seed

rate

cowpea
Irfize

(3)

Maize

cowpea

15

15 kgs.

40

Kgs

'3) Maize
0ower(2
cowpea
cow pea t eosint ee
(l) Maize 40 Kg cowpea, 15 Kg (2) Maize 40

20

Kgs.

Kgs

cow

pea

15

Kg

Teorinto

10

KgS

Oowar

cuts),

Kgs

20

Kgs

(4)

S

10

S

Fertilizer/Nanure?
1.

Crop

2.

&

3.

Crop

40

(4)

60

60

dress

Crop

rotation

Seed

rate -

Kg

after

P203/ =

first

50

Kg

30

Kg

K2

20)

K

Kg

K20

60

Followed by

Kg

N2

cut.

or

Napier/Guinea

fertilizer/manure - Hyb.

P205/("40

P20 5/ 20

Kg

30

Hyb.Napier

II.

Hyb.

Kg

N2/30

Kg.

N2/

Kg

N2/40

Kg

top

as

FYN/60

tons

Crops

inter

Guinea

rootslips

-

FyN.6D

Kg

tons

planted

12,500,

cowpeas.

with

Cowpea

-

30

Kgs

each

sut

N2/

Napier.

Guinea

30

Kg

N

after

Cowpea

30

Kg

P2

65/—

Crop

rotation

Seed

Rate?

Centrooema

HI

Crop

IV

Seed

rate

-

cuttings)

Sq(Stem

Kgs

'81

Kg

K20/

30

K2

Seeds

-

V

50

Perennial

FYN

20

Kg

tons/40

Kg

10

0

after

N

Lucerne

25

Lucerne

—

Kgs

applied

every

CROPPING

5

Area

Lucern e

25

tons

year

PROGRflTOTE

FOR TliJENTYFIVE

Acres

()

per

rate

seed

0.10

fertilizers

tonnes

K205

K20

Kg

20

N2/6O

Kg

5

acre

Acres

K20

ass

IRRIGATED

Acres

5

(/ '

Naize/Cwo-

acre)

seed

pea

Nov . rat e

1 5/20

to

60

Kg.

rate

a

roots lips

16-20

fert is FYN 30

lit.

2)

10.0

Kg.

seed

40

N

40-50

ton.

tons

N.

K2 06-10

1

Planting

17

14
15

Natch

16

17

April

16

17

Nay

16

18

2

Plantings .

19

2

Plantings

August

17

20

Sept ember

17

19

October

17

14

November

17

14

December

17

13

20

10.0

40

1

40

3

plantings

———
40

4

plantings

—————

1

40

Plant

Pla.

40

2

40

plantings

20 5

P

Kg.

K208.10

17

17

N.16

(Split

Kg)

Kg

F ebruary

——

10/

FYN.10-20

tons.

F20 5

January

17

5

(sp-

Kg)

seed”

rate -

Kg.FYN.10-

20

5,000

to

Duly

Acres

5

Acres

Naize

(/acre

Dune

FARH

gr-

Feb.

year)

5

FODDER

plant/

Guinea

kgs

ACRE

FYN.30

once

Kg

K2 05

November.

in

sowing Sep.Oct.,

'

pubsscense.

grass/centrocem

3-10

Pubsscehse

50

K20

K2

para

Fertilizer/Nanure -

2 tons

1 5

Paragrass

Fertilizer/manure

cuts

every two

3

"

"

Pla.

"

"

75

plant 40
4

pla.

"
"

71

-------------- 71

plant40

"

77

-------------- 77

40
4

"

75

3

40

——

"

73
Plan.73

40
I 1 ——

72

----------- 74

40

Ton.

71

70

11/-

1"

''

:

Respected

milk

in

maximum

For

and they

shade

room

40

Along

the

5

wall

remaining

40

The

in

the

buffalos,

Cement

the

be maintained
12

75

Calves(Adults

room

asbestos

system

of

are

always

free

option

to

t

of

open

the

loose

on the

121

feet

saying,

feet

Sloping

x35

a

animals

have the

or

feet

to

animals
bullocks.

labour

system,

this

of

dry

Stocks

Adult

50

about

Unit).

;

HOUSING

2

No.
16

s

11

10’

housing

length

on

outside
of

the

away from

surrounded

the

feed

dovered

one

15'

5

sned

the

acts

wide

can

a herd

consist
be

wide

20
a

of the

be

paved

with

There

shall

be

put

on

/////////////////

one gate

brick

man

x

15'«

ger

with

40

boundaries.

one

roof sheets.

and

cows

shed

feed

as

with

area

under the

of
cf

In

recommended.

enclosed

shall

walls,

be

For

shall

manager.
ft

is

rest

man-gers,

shall

side,

house

within the

pad.

system

which

the
by

at
of

block

loose

an

open

for

the

pillars

The

Brick/B.S.5./
paved

are

animals.

holding

wooden

FOR FARM

I.5.:

CATTLE HOUSING

4466(

P

&

l)

-

FOR PLAN AREAS WITH MEDIUM

1967

and

IS:

(pt-II

)

-

R.1INFALL

1968.

PART-I

&

II,

NEW

DELHI"

Media: RF_DEV_1.1_SUDHA.pdf

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