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Agricultural inputs are the requirements to carry out the agricultural activity like fertilizers, pesticides, machineries, land, ideas, knowledge, ect.
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Chemical Control are;- pesticides, fungicide: Chemical control consist of spraying and dusting the plant by chemicals and poisons or mixing these into soil to kill pests and diseases which inhibit the soil pest and diseases which inhibit the soil. The most used chemicals s, weedicides, rodenticides, and fumigants.
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Plowing of field, pumping of water, threshing, spraying of pesticides, spraying of fertilizers and many more work can be done by use of electricity.
This presentation captures recent advances made in Indian agriculture. Not many know that India ranks 2nd globally in form of production. The presentation also highlight the unique strengths of Indian agriculture that help capturing global glory.
Agricultural inputs, plant protection, electricity and dieselAjit Majumder
Agricultural inputs are the requirements to carry out the agricultural activity like fertilizers, pesticides, machineries, land, ideas, knowledge, ect.
Pesticides are the most important agricultural input required post and pre harvest in the agriculture.
Chemical Control are;- pesticides, fungicide: Chemical control consist of spraying and dusting the plant by chemicals and poisons or mixing these into soil to kill pests and diseases which inhibit the soil pest and diseases which inhibit the soil. The most used chemicals s, weedicides, rodenticides, and fumigants.
Chemical Control are;- pesticides, fungicide: Chemical control consist of spraying and dusting the plant by chemicals and poisons or mixing these into soil to kill pests and diseases which inhibit the soil pest and diseases which inhibit the soil. The most used chemicals s, weedicides, rodenticides, and fumigants.
Electricity is one of the most indispensable agricultural input in modern agricultural practices.
The use of electricity in developed countries have reached to such a position where in India electricity use in farm base activities is still to reach recognizable dimension.
Use of electricity can supplement to the present agricultural labor crisis as many manual works can be performed by use of electricity power.
Plowing of field, pumping of water, threshing, spraying of pesticides, spraying of fertilizers and many more work can be done by use of electricity.
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Future of cooperative farming in pakistan
1. Journal of Biology, Agriculture and Healthcare www.iiste.org
ISSN 2224-3208 (Paper) ISSN 2225-093X (Online)
Vol 2, No.6, 2012
Future of Cooperative Farming in Pakistan
*Dr. Hazoor Muhammad Sabir **Safdar Hussain Tahir *** Salman Arshad
and ****Saad Bin Nasir
*Associate Professor, Department of Economics, Government College University Faisalabad.
**Assistant Professor, Department of Banking & Finance, Government College University Faisalabad.
(Corresponding Author) Email: safdartahir@gmail.com
***Lecturer, Department of Industrial Management, Government College University Faisalabad
****MS-Scholar, Department of Business Administration, Government College University Faisalabad
Abstract
The main objective of this study was to work out production efficiency of some cooperative and non
cooperative farmers in the central Punjab, Pakistan. For this purpose a survey of central Punjab was conducted
in the year of 2008-09. Two type samples were taken for the study. First type sample was comprised of 15
respondents who had joined together in different ways to cultivate their available lands. Second type included
60 respondents, 20 from each district of Jhang, Faisalabad and TT Singh. The results obtained through t-
statistics analysis revealed that the per acre use of Agri inputs and outputs obtained for all the cash crops was
significantly different and higher in case of cooperatives than non-cooperatives farmers. The benefit cost (B-
C) ratio indicated that it was 38% higher for cooperative than non-cooperatives as it was 1.98 and 1.43 for
respective categories. But these cooperatives farming could not sustain for longer time due to the lake of
education and conflicts between the members.
Keywords: Cooperatives, Farming, Punjab, Pakistan
1. Introduction:
The cooperative farming means bringing together of all land resources of farmers in such an every bit
of land to the best of the fertility of land (Jasvir). The fragmentation and sub fragmentation of land is highly
injurious to the agrarian economy of Pakistan. The law of inheritance is the major cause of such subdivision of
land into small pieces. Currently round about 93% of the total farming community falls under the category of
small farms (Govt of Pakistan provincial report). Small farmers are those who have less than 12.5 acre of land
for cultivation.
Such small farmers can neither cultivate their small pieces of land nor use latest technologies being
released. Such low production efficiency on more than 50% of the cultivated land is a serious issue for agrarian
economy of Pakistan. Under such circumstances the cooperative framings has become an essential feature for
Pakistani agriculture.
Cooperative farming ranging from pooling of all - few resources may of different types but the basic
idea underlying cooperative farming is utilize the scare resources jointly. The individual agriculturist, whether a
small holder, tenant or landless agricultural labror in our country is handicapped by the common factors of
poverty, lack of financial resources and small size of holding that is always uneconomical.
When however, pool is formed and adequate land is secured to contribute an economic unit, the usual
handicaps are removed. The collective resources of land, labor and finances for the development of land,
facilities of irrigation, improved implements including expensive and labor saving machinery, crops finance
marketing facilities-all these could be easily recurred. There is an immense for cooperative farming in
Pakistan, although the movement is as yet in it.
After realizing the needs of cooperatives in Pakistan, the food and agriculture minister announced that
the government had accepted the recommendations of commission on food and agriculture, as introduction of
cooperative farming in Pakistan (Sheikh K.M, Nov, 2011).
The cooperative farming has been tried successfully in various countries like United Kingdom,
Germany, France and Sweden. Following are the main advantages of cooperative farming: (a) Majority of the
farmers keep the small units of land. So they cannot employ the improved methods of cultivation. Cooperative
farming enables them to consolidate their small units of land for better utilization. (b) A poor farmer cannot
purchase the machinery but a cooperative society can easily purchase the various machines. The use of
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2. Journal of Biology, Agriculture and Healthcare www.iiste.org
ISSN 2224-3208 (Paper) ISSN 2225-093X (Online)
Vol 2, No.6, 2012
machines will not only reduce the cost of production but will increase the per acre yield. (c) A cooperative
farming is in a better position to get the adequate and timely supply of essential agriculture inputs like fertilizer
and seeds. (d) A cooperative farming society creates the brotherhood and love for the members because they
work for their common interest. (e) A co-operative farming society will bargain in the market and will sell the
product at maximum price. The income of the individual farmer will increase. (f) A co-operative society guides
the farmer to increase their efficiency and production.
1.1. Objectives of Study:
a) To estimate the physical inputs use for cash crops on cooperative versus non-cooperative farms in
Punjab. .
b) To make the comparison of cooperative versus non-cooperative farmers on the basis of economic
efficiency in Agri production.
c) To find the causes of failure of cooperatives
d) To make recommendations and suggestions based on empirical findings.
2. Review of Literature:
Chinn (1988) conducted a study in chide and used simple LP model framework to simulated various
forms of cooperatives between representative farm of two villages in pre war China. He concluded that
although two farms individually were quite efficient revenue maximizers, but significant mutual benefits would
result from the formulation of an elementary agricultural producer’s cooperative.
Fulton (1999) worked on cooperatives farming in and found that with co-op membership farmers
participate to the patronage of the firm and to the decision-making process, becoming residual claimants of the
returns from co-op activities. The way members obtain the residual return is not based on their ownership but
on the base of product-delivery to the co-op.
Ménard (2004) concluded that asset specificity and mutual dependency form the second major
dimension in determining farmers’ likelihood to network with agricultural co-ops. Co-ops have an advantage
with respect to transactions that involve specific joint-investments, and when parties are involved in long-term
relations.
P. Mavimbela et al (2010) found that savings and credit cooperatives have a positive contribution
towards food crop production as it enhances farmers’ ability to purchase farm inputs and easily acquire other
farm requirements. Members of savings and credit cooperative societies demonstrated the attainment of higher
food crop yields to meet household needs and had capacity to utilize more capital for production than non-
members. They further indicated that membership to a cooperative enables members to access credit, which
becomes useful in improving agricultural production of small farmers.
3. Methodology:
Due to fragmentation and inheritance, the number of small farmers is increasing over time. These
farmers are not in a position to adopt and use the modern cultivation technologies. Under such circumstances,
the combined use of costly and modern technology is the only possibility for small farmers. In order to make
the comparison between production efforts of some joint farmers and individual farmers, a survey was
conducted in central zone of Punjab. In this study, data were collected from the district of Jhang, TT Singh and
Chionat. This study was based on two type samples. First type sample included fifteen groups of small farmers,
who had joined together in either way for farming purpose. Some had joined to purchase a common tractor
along with cultivations and other cultivations implements. They were six in number.
Another category of such farms was that who had joined together to create some sources of irrigation.
These included electric tube well or peter. There was another 3rd category those had joined together in
cultivations sources as well as irrigation sources. No another type of joined farming with pooling the recourses,
was found in the study area.
The second type sample included 60 respondents who were cultivating their respective pieces of land
individually. This sample was comprised of small farmers, twenty from each district.
With the help of a questionnaire all the information regarding use of inputs and corresponding outputs
of some major crops like cotton, sugar-cane, rice and wheat was collected. On per acre base use of variable
inputs like cultivation seed, irrigation, DAP, urea and plant protection measures, the total variable costs were
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3. Journal of Biology, Agriculture and Healthcare www.iiste.org
ISSN 2224-3208 (Paper) ISSN 2225-093X (Online)
Vol 2, No.6, 2012
estimated. The gross returns per acre for each crop were also calculated.
Mean value of each input and output per acre represented the overall use of their inputs, both for
cooperative and non cooperative/ individual farmers. Then to make the economic comparison of these two
groups, benefits – cost ratio analysis was made. B-C ratio included
B-C = Gross return from all crops
Total available in put cost
Then to make the comparison between two groups, the t-Statistics was applied. It is the statistical /
econometric technique which is used to make the comparison of mean of different variable / inputs for two
competing groups. The t- statistics used for the comparison of inputs and output was:
where
Here is the grand standard deviation (or pooled standard deviation), 1 = cooperative group, 2
= non-cooperatives group . The denominator of t is the standard error of the difference between two means. For
significance testing, the degrees of freedom for this test is 2n − 2 where n is the number of participants in each
group.
4. Results and Discussion:
After making the necessary analysis through these techniques, the following results were drown
Table-1Per acre use of different variable inputs for cooperative and non cooperative farmers
Cooperative Non Cooperative
Description Cot Sc Wt Rice Cot Sc Wt Rice
Cult 6 8 4 6 4 6 4 4
seed 8 10 60 5 5 9 45 5
irrigation 8 32 5 20 4 12.5 3 10.6
DAP 2 2 2 1 0.8 1 0.75 0.65
Urea 2 3 2 1.5 1 1.25 1 0.78
PP 6 2 1 1 4 0.45 0.5 0.35
yield mds 25 850 42 38 8 400 18 18
Data given in table -1 demonstrate the use of some variable inputs in physical terms being used on per
acre basis by cooperative and/ non cooperative framers. Results revealed that for all the crops, the level of
inputs use by cooperative farmers was higher than non-cooperative framers. Similarly the output level was also
higher for all the crops in case of cooperative farmers than non cooperatives.
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4. Journal of Biology, Agriculture and Healthcare www.iiste.org
ISSN 2224-3208 (Paper) ISSN 2225-093X (Online)
Vol 2, No.6, 2012
Table-2 Per acre cost of different variable inputs for cooperative and non cooperative farmers
Cooperative Non Cooperative
Description Cot Sc Wt Rice Overall Cot Sc Wt Rice Overall
Cult (Rs.) 3600 4800 2400 3600 3600 2400 3600 2400 2400 2700
seed(Rs.) 2000 25000 1800 225 7256.25 1250 22500 1350 225 6331.25
irrigation(Rs.) 12000 48000 7500 30000 24375 6000 18750 4500 15900 11287.5
DAP(Rs.) 7600 7600 7600 3800 6650 3040 3800 2850 2470 3040
Urea(Rs.) 1920 2880 1920 1440 2040 960 1200 960 748.8 967.2
PP(Rs.) 2700 700 350 350 1025 1800 157.5 175 122.5 563.75
yield (Rs.) 105000 127500 38850 46550 79475 33600 60000 16650 22050 33075
Total cost(Rs.) 29820 88980 21570 39415 44946.25 15450 50007.5 12235 21866.3 24889.7
B-C Ratio 3.52 1.43 1.80 1.18 1.98 2.17 1.19 1.36 1.01 1.43
Data given in the table 2, demonstrate B-C analysis made for both categories of the farmers. Similar to
the use the of physical inputs, their respective costs and incomes were also higher in case of cooperative group
of farmers than non-cooperatives. B-C ratio analysis revealed that as a whole it was 1.98in case of cooperative
group of farmers and 1.43 for non cooperative group of farmers.
Figure below shows, the B-C analysis ratio estimates for different crops being grown by both
categories of the farmers. It is clear that B-C ratio for all the cash crops of cooperative farmers was higher than
those of non-cooperatives.
Fig-1 Comparison of B-C ratio anlysis of Coop vs Non
Coop farmers.
4.0
3.5
3.0
B-C ratio
2.5 Coop
2.0
1.5 NonCoop
1.0
0.5
0.0
Cot Sc Wt Rice
Crops
In order to make the comparison of inputs and outputs on statistical grounds, t-statistics was applied.
Some hypotheses to be tested by this technique were formulated:
Hypotheis-1
Ho: X cul(c) = X cul (nc) No difference between the use of cultivations by coop vs. non-Coop.
Ha: X cul(c) ≠ X cul (nc) Different use of cultivations by coop vs. non-Coop
Hypotheis-2
Ho: X seed(c) = X seed (nc) No difference between the use of seed by coop vs. non-Coop.
Ha: X seed(c) ≠ X seed (nc) Different use of seed by coop vs. non-Coop
Hypotheis-3
45
5. Journal of Biology, Agriculture and Healthcare www.iiste.org
ISSN 2224-3208 (Paper) ISSN 2225-093X (Online)
Vol 2, No.6, 2012
Ho: X irri(c) = X irri (nc) No difference between the use of irrigation by coop vs. non-Coop.
Ha: X irri(c) ≠ X irri (nc) Not equal use of irrigation by coop vs. non-Coop
Hypotheis-4
Ho: X DAP(c) = X DAP(nc) Similar application DAP by coop vs. non-Coop.
Ha: X DAP(c) ≠ X DAP (nc) Different application of DAP by coop vs. non-Coop
Hypotheis-5
Ho: X urea (c) = X urea(nc) Same level Urea use by coop vs. non-Coop.
Ha: X urea(c) ≠ X urea (nc) Different level Urea use by coop vs. non-Coop
Hypotheis-6
Ho: X pp(c) = X pp (nc) No difference in the use of PP by coop vs. non-Coop.
Ha: X pp(c) ≠ X cul (nc) Different use of PP by coop vs. non-Coop
Hypotheis-7
Ho: X GIF(c) = X cul (nc) No difference between GI of coop vs. non-Coop.
Ha: X GIF(c) ≠ X cul (nc) Different GI of coop vs. non-Coop
Table – 3.Results obtained through t-statistics analysis showing the difference between
inputs and outputs on per acre basis for cooperative versus non cooperatives.
Cooperative Farmers inputs
yield
Inputs Cult seed irrigation DAP Urea PP mds
Non Cooperatives inputs
Cult 2.15
seed 1.96
irrigation 4.5
DAP 3.15
Urea 2.58
PP 1.96
yield
mds 4.25
T-theoretical values at 1% = 3.74, 5% = 2.61 and 10% = 1.96
Estimates given in the table-3 indicates that the estimated values of t were higher than theoretical
values of t for all the inputs and outputs for all the crops. It indicated that there was a significant difference in
input use and output obtained by both groups of the farmers’ i.e. cooperatives and non cooperatives.
Although cooperative farmers were performing well, but some draw backs were also observed during
the survey. So many evidences were noted that such cooperatives could not run for long term. Some factors
were also indentified which were the cause the failure of these cooperatives. Among them the important factors
were:
Table-4 Factors responsible behind the failure of cooperatives farming.
Sr. Factors %age
No
1 Lack of education 75
2 Lack of Honest Manager 63
3 Rising level of in put price 57
4 Lack of proper guidance 48
5 Individual conflicts 45
Most of the respondents (75%) were of the view that due to lack of education, their cooperatives failed,
46
6. Journal of Biology, Agriculture and Healthcare www.iiste.org
ISSN 2224-3208 (Paper) ISSN 2225-093X (Online)
Vol 2, No.6, 2012
while 63 % perceived that to run the cooperative for long term, there was a need of honest managers, such
managers should be from other than members. But such managers could not be paid regularly and consequently
cooperative failed.
Similarly 57 % respondents identified that frequently rising price of agri inputs and POL were the
cause of failure of cooperatives. Because high rising prices of inputs, discourage the member to share in the
rising repair cost.
Some other members reported that level of proper guidance for cooperatives and individuals conflicts
were some other important factors due to which cooperatives farming failed in the rural areas of Punjab.
5. Conclusions:
From the study it was concluded that the cooperating farming was beneficial and more economical
than individual agri. farming. But their long term stability was affected by some factors like lake of education,
honest managers, and member’s conflicts. Results are also consistent with Khalid (2008).
6. Suggestions:
The government should increase the rate of education to make the cooperative farming more effective.
Importance of cooperative farming society should be explained to the farmers. The government should remove
the defects in the recovery process. It will increase the efficiency of financial institutions and there will be
reduction in defaulters. The management can ask the members of the society in friendly manner for the re-
payment of debt. When crop is in the market, loan can be recovered easily. The government should discourage
corrupt people and people should also be co-operative with the government to make cooperative farming more
effective.
7. Literature Cited:
1. Fulton, M. (1999). Cooperatives and Member Commitment. The Finnish Journal of Business
Economics 4: 418-437.
2. Cooperative Enquiry 1952 "Report of the Cooperative Committee Enquiry Committee" Government of
the Punjab.
3. Cooperative Promotion 1979 "Cooperatives in Thailand". Department Cooperative Promotion
Department, M/o Agriculture and Cooperatives, Bangkok.
4. Credit Enquiry 1959 "Report of the Cooperative En-Commission inquiry Commission" Government of
Pakistan.
5. Economic Development 1981 "The Cooperative Marketing Foundation Project -An evaluation".
Economic Development Foundation, Manila.
6. Economic Research Deptt. 1973 "Present Conditions of Cooperative Finance for Agriculture, Forestry
and Fishery in Japan". Economic Research Department, the Norinchukin Bank, Tokyo.
7. Khalid Riaz (2008): A Case Study of Milk Processing: The Idara-e-Kissan Cooperative The Lahore
Journal of Economics13 : 1 (Summer 2008): pp. 87-128
8. Leliveld A (1994). Social Security in Developing Countries: Operation and Dynamics of Social
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