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CHAPTER – VI

AGRICULTURAL YIELD AND PRODUCTIVITY IN BEED

DISTRICT

6.1 INTRODUCTION

6.2 GROWTH OF PRODUCTION IN BEED DISTRICT.

6.3 MEAN, VARIABILITY, STANDARD DEVIATION AND

COMPOUND GROWTH RATES OF PRODUCTION OF

SELECTED CROPS.

6.4 TAHSILWISE TRENDS OF PRODUCTION OF SELECTED

CROPS.

6.5 GROWTH OF YIELD IN BEED DISTRICT.

6.6 MEAN, STANDARD DEVIATION, VARIABILITY AND

COMPOUND GROWTH RATES OF PRODUCTION OF

SELECTED CROPS.

6.7 TAHSILWISE TRENDS OF PRODUCTION OF SELECTED

CROPS.

6.8 TAHSILWISE CROPS PRODUCTIVITY OF SELECTED

CROPS.

6.9 TAHSILWISE OVERALL PRODUCTIVITY IN BEED

DISTRICT.

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CHAPTER – VI

AGRICULTURAL YIELD AND PRODUCTIVITY IN BEED

DISTRICT

INTRODUCTION :

An attempt has been made to study the broad trends and variation in

production and yield of selected crops in Beed district. The time period

chosen for analysis of these trends is the period from 1970-71 to 2000-01.

Needless to say, that the study is bound to be highly aggregative, as it relates

to district like Beed which consist of such subdivisions which differ in their

geographical characteristics, aptitude of the people and cropping pattern.

Moreover, the study is based on a time series data for a period of twenty

seven years. During the course of this time period the procedural techniques

of statistical data collection have undergone changes varying from crude eye

estimation methods including haunches to highly sophisticated techniques of

statistical data collection.

The of production variability, compound growth rates of selected

crops, growth of yield, tahsilwise trends of yield, crop productivity and

tahsilwise overall productivity have been analyzed. Particularly rice, wheat,

Jawar, Bajra, other cereals total cereals, gram, Tur, total pulses groundnut

total oil seeds cotton and sugarcane crops have been considered.

Agricultural production is the effect of farming. However, the ups and

downs of agricultural production is the result of the whim of nature that have

played an important role in agriculture. Since 1970, food grains production

due to the technological development has increased. Technological factors

have a profound influence on agriculture and its productivity in particularly,

recent per year to independence and particular. India is largely a region of

self-sustained villages in which traditional agriculture is practiced. Since, the

beginning of present century, the region has suffered from intense pressure

180

of population upon available food resources. The pressure of population has

increased to a greater extent in the study reason. The growth of some sugar

factories in Ambejogai, Parli, Patoda, Ashti, Shirur, Wadwani, Dharur, Parli

and Georai tahsils has played an important role in agricultural development

of the region. Therefore, the modern agriculture is a sector of economy

which stands between subsistence farming and industrial activities.

There are to terms yield and productivity generally there are useful by

the common person. The measurement of production and inputs recorded for

yield and output per unit of area is known as agriculturally productivity.

Yield, on order hand is the output of particular crop per unit of area in a

particular point of time. The study of special production agriculture

productivity is useful for identifying, the different areas of agriculture. In

developing countries like India, land is limited for making expansion into

cultivated area. Further, increasing pressure of population on land compels

the scientists to think for the improvement of agricultural productivity. Thus,

to solve the food problem a suitable way is, to increase the production per

unit area per unit of time. Hence, a measurement of the existing agricultural

productivity becomes necessary before any premedical steps can be taken.

Agricultural productivity is the interplay of a multitude of many

factors, such as environmental, socio-economic and technological factors.

The agricultural productivity is closely related to the per hectare yields,

where as the agricultural efficiency is much more than agricultural

productivity is the actual performance of the land in terms of per hectors

yield, where a agricultural efficient is a ratio between the achievement in

terms of agricultural production and the actual potential of the land

productivity is physical rather than a value concept and describes the

changing relation between output and one of the major inputs like land, labor

and capital.

181

6.2 GROWTH OF CROPS PRODUCTION :

Quantitative indication of changes in output of the selected crops has

been shown in table 6.1 in columns 2 and 3 of table 6.1 are given the

average output of selected crops during 1970-71 to 2000-01.The table

concerned represents the average production in metric ton for the year 1970-

71 and 2000-01. This table also the present change in production of imported

crops in metric ton and percentage change during the same period.

Similarly annual production change as well as in metric ton and in

percent is calculated. There are wide variation in terms of population of

different crops during the period 1970-71 and 2000-01.

Table 6.1 Trends in crops production (1970-71 to 2000-01)

Crops Average production metric tonnes Change in production between 1970-71 to

2000-01

Annual production change

1970-71

1980-81

1990-91

2000-01

Quantity in M.T.

percentage Quantity in M.T.

percentage

Rice 1400 1700 3700 32300 1800 128.57 66.67 4.76

Wheat 13300 2900 25600 16700 3400 25.56 125.92 0.96

Jawar 64800 94500 202600

213200 148400 229.01 5496.30 8.48

Bajra 36000 21700 33200 148300 112300 311.94 4159.26 11.55

Total Cereals 223400 95300 265400

458900 235500 105.42 8722.22 3.90

Gram 7400 3500 8400 10300 2900 39.19 107.41 1.45

Tur 1700 5500 3400 20900 19200 1129.41 711.11 41.83

Total Pulses 15700 8300 20400 43900 28200 179.62 1044.44 6.65

Groundnut 10800 5600 24000 15400 4600 42.59 170.37 1.58

Total Oil

Seeds

16800 9300 57800 75100 58300 347.02 2159.26 12.85

Cotton 5200 8100 7300 63500 58300 1121.15 2159.26 41.52

Sugarcane 101500 16500 221500

10307800

1206300 1188.47 44677.78 44.02

Source : Socio-economic abstract of Beed district.

182

Rice:-

For Rice the average production in metric ton was 1400 in 1971 which

substantially increased to 32300 metric ton in 2001. This clearly indicated

that there was net increase of 30900 metric ton during the some period. This

change in percentage was as high as 2207 percent during the last three

decades. In other words the annual production change was 1030 metric ton

and percentage annual production change was 73.57.

Wheat:-

As for as Wheat is concerned the total production in the year 1971

was 13300 metric ton which increase 16700 metric ton in the year 2001.

There has been net increase in production of Wheat above 3400 metric ton

during last three decades. The percentage increase in Wheat production was

25.56 during the 1971-2001 period. The annual production change was of

the under 125.92 metric ton and percentage change was recorded less than 1

percent.

Jawar:-

Jawar is the most staple crops in the region under study Beed district.

The total production of Jawar was 64800 M.T. in 1971, which increase as

high as 2133200 in 2001. There has been net increase of production of

148400 metric tons during the last three decades. This came to 229.01

percent during the last three decades. The annual production change for Rice

was 549.30 metric tons which is 8.48 percent per annum.

Bajra :-

Bajra a also and important crop grown in region under study. The total

production recorded was 3600 metric ton, which substantially increase and

become high as 148300 metric ton in 2001. There has been net increase and

Bajra production of 112300 metric ton during the last three decade. The

percentage change in Bajra production was of the under 311.94 percent

183

during the last thirty years. As for as, the annual production change was of

the under 4159.26 metric ton per year, while percentage change was

calculated 115511 percent per annum.

Gram:-

Gram cultivation is not that important crops in Beed district. The total

production of Gram was 7400 metric ton 1971, which increase to 10300

metric ton in 2001. There has been net increase in production of Gram of

2900 metric ton during the last thirty years, which is 39.19 percent. The

annual production change of Gram was of the under of 17.41 metric ton and

percentage annual change was 1.45 percent during the last three decades.

Tur:-

Tur is one of the important pulses in Beed district. The average

production of metric ton was sublimated 1700 metric ton 1971. This increase

to 20900 metric ton in year 2001. The next increase was 19200 metric ton

during the last three decade in Tur production in Beed district, which has

recorded 1129.42 percent increase during the same period.

This is the highest percentage increase among the cereals and pulses

the annual production change in Tur was 711.11 metric ton and the annual

percentage change was recorded 4.83 percent. (Table 6.1)

Oil Seeds:

The total Oil Seeds including Groundnut are important crops in Beed

district in the year 1971. The total Oil Seeds production was 1688 metric

ton. This has enormously increased as high as 75100 metric ton 2001. The

net increase was of 58200 metric ton during the period of three decades,

during the staple of thirty years there has been increase in total Oil Seeds

production of 347.02 percent. In other words the annual production change

in term of increase was 215.26 metric ton and the percentage increase 12.85

percent per annum. (Table 6.1)

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Cotton:-

Cotton is also an important cash crop in Beed district. The cotton

production bale was 5200 in 1971. That has tremendously increased to

63500 bales in the year 2001. This shows that, the net increase in cotton

production was 58300 bales, the percentage change was noted positive of the

under 1121.15 during the last thirty year. The annual production change was

cotton 2159.26 bales which accounted 41.52 percent annual percent per

annum.

Sugarcane:-

Sugarcane is the most important cash crop in Beed district due to

increase in the irrigational facilities; the Sugarcane has been retaining

growing cash crop in Beed district. The average production Sugarcane

metric ton was 101500 which as enormously increase and become as high as

1037800 metric ton in 2001. There has been net increase in the production of

Sugarcane of 1206300 metric ton during the 1971-2001 periods. The percent

is change in the increase of Sugarcane was calculated to 1188.47 metric ton

during a span of thirty year. This cereal with that Sugarcane is fast growing

crop in the Beed district, due the enthusiasm of the farmers in the Beed

district. The annual rate of change of sugarcane was 44677.78 metric ton

which accounted to 420.2 percent.

6.3 PRODUCTIVITY OF PRINCIPAL CROPS:

Wheat, Jawar, Bajra, Maize, Gram, Tur, Groundnut, Cotton and

Sugarcane are the important crops of the Beed district, Sugarcane and Jawar

is accounting for more than 50 percent of the total cultivated area of the

region. Jawar can be grown both a Rabi and Kharif crops in Beed district.

Wheat is more common in dry areas. Sugarcane is the principal crops of the

185

region. It is a late arrival in the field of cash crops. Its cultivation is confined

to the areas receiving adequate and timely irrigation.

The crop productivity changes have occurred in response to many

technological developments during the last few decades. The adoption of

seeds, fertilizers and irrigation has resulted into increase of farm production

and diversifying the production pattern. The soil conservation has been an

addition for increasing the productivity. Thus, all these factors interact the

changes in agricultural production.

1) YIELD LEVELS OF RICE:

The table 6.2 depicts productivity in Beed district for different tahsil

for 2001. The yield per hectares of the important crop has been calculated

for measurement crop grown in the district. The rice is represented as a

staple crop in Beed district. It is used daily in meals by the people.

The average yield for the Beed district was estimated 503 hundred kg.

per hectare in 2001. The highest yield per hectare was recorded for Kaij

tahsils, weld value lowest for Ashti tashil, Parli, Dharur, Wadwani, Shirur

and Ashti have recorded yield of rice below the district average in 2001. The

tahsils likely Patoda, Geograi, Majalgaon, Beed and Ambejogai registered

yield per hectare above the district average. The yields of rice higher in area

were evident water supply as a meaning of irrigation is available. (figure

6.1) Table 6.2.

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187

2) YIELD LEVELS OF WHEAT:-

Wheat in an important crop grown in the Beed district. The average

yield per hectare in the Beed district was 59300 kg. per hectare in 2001. It

was highest for Kaij valued lowest for Shirur tahsil. The Beed tahsil and

Wadwani have also shown much higher productivity of Wheat in the region

under study. (table 6.3) Other tahsils like Majalgaon, Ambejogai and Ashti

have much hectare yield per acre of Wheat than the district of the district.

Due to better availability of sown of irrigation facilities Patoda, Georai,

Dharur and Parli tahsils have much lower yield per hectare than the average

for the district and 2001. The variations in the level of Wheat yield, may be

activated to various physical socio and economic factors. (figure 6.2)

Table 6.2 Yields of selected agricultural crops in Beed district

(Sugarcane Yield in M.T. & Other crops in Kg.)

Sr. No. Crops

Year 1970-71 1980-81 1990-91 2000-01

1. Rice 434 1189 741 578

2. Wheat 371 892 924 935

3. Jawar 367 785 814 708

4. Bajra 361 414 406 628

5. Gram 274 344 492 453

6. Tur 186 397 541 282

7. Groundnut 450 515 1243 533

8. Cotton 58 125 122 121

9. Sugarcane 50 65 83 68

Source : Socio-economic abstract of Beed district.

188

Table 6.3 Yields of selected agricultural crops in Beed district

(Sugarcane Yield in M.T. in Kg.)

Sr. No. Crops

Year 1970-71 1980-81 1990-91 2000-01

1. Rice 100 245.05 152.43 102.72

2. Wheat 100 321.67 270.67 240.33

3. Jawar 100 251.71 266.16 189.73

4. Bajra 100 78.00 81.80 103.00

5. Gram 100 158.54 242.72 138.35

6. Tur 100 282.52 540.78 158.25

7. Groundnut 100 58.73 139.52 58.73

8. Cotton 100 600.00 714.28 700.00

9. Sugarcane 100 80.85 112.33 79.45

Source : Socio-economic abstract of Beed district.

3) YIELD LEVELS OF JAWAR:-

Perhaps, Jawar is the most important cereal crops grown in the Beed

district. This crop is grown both rabi and kharif seasons. This is concerned

by the majority of the poor people in Beed district. It means sustain even in

the coarse soil and do not acquire much irrigation. The average yield of

Jawar was recorded for the district as whole 54000 kg. per hectare of land.

The net sown area under Jawar is also much higher in the Beed district

according to 2001. Due to increasing important of Sugarcane as is cash crop

the net sown area in gradually decading day by day in the region under

study. Patoda tahsil ranks first in the yield level of Jawar and fallow land by

Kaij tahsils.

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190

Other tahsils like Georai, Majalgaon, Ambejogai, Shirur and Beed

tahsils have recorded higher yield per hectare than the average for the region

as whole. Rest other tahsils like Ashti, Parli and Dharur represented lower

yield than the region average in 2001. The variations in the levels of yield

are due to various socio-economic and physical factors to a certain extent.

The attitudes of the people, traditional habit of people are response for

variation of the yield levels of the Jawar in Beed district. (figure 6.3)

4) YIELD LEVELS OF BAJRA:-

Bajra is an important cereals crops in Beed district. This is grown in

the kharif season. The yield per hectare of land was 50100 kg. for Beed

district as a whole. Kaij ranks first as for as the yield per hectare land is

concerned in the Beed district. It is full use by Ashti tahsil. Other tahsils like

Ambejogai, Beed, Georai and Majalgaon recorded higher yield per hectare

of land than the region as a whole. (Table 6.4) Remaining other tahsils like

Dharur, Parli, Patoda, Wadwani and Shirur have shown yield per hectare of

land lower than the average for the region as a whole. The variations in

levels of yield for Bajra depend upon the variation in soil, climate and

attitude of the people in the Beed district. This crop is consumed by the

morality of the poor people in the region under study. Like Jawar it's also

grown in the light coarse soils and does not recorded irrigation since it’s a

grown in the kharif season. (Figure 6.4)

5) YIELD LEVELS OF GRAM:-

Gram is none has pulses grapes but, its use both for based as well as

vegetable in day today life of common. It is also grown is evele infirial soil.

The average yield of Gram is 300 kg. per hectare for land in Beed district as

a whole. It did not require in irrigation an it grown rabi season in Beed

district. Patoda extant first of the yield of Gram in Beed district. It follows

by Kaij tahsil and Ambejogai other tahsils like Beed and Majalgaon have

also recorded higher yield than average for the region. Georai is the list yield

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192

giving region of Beed district. Shirur, Wadwani, Ashti, Dharur, Parli

are other tahsils having lower production of Gram than the Beed district

attitude. (Figure 6.5)

6) YIELD LEVELS OF TUR:-

Tur is one of the most important pulses grown in the Beed district.

The duration of the food crops extent for kharif to rabi season. It is the most

essential the part of district in day to day life in daily needs for common

man. 43900 kg. per hectare Tur yield was recorded for the Beed district

agitated. Surprisingly to Georai recorded the highest yield per hectare of

land by Parli recorded lowest. Ashti, Kaij, Beed, Ambejogai have sown

higher yield per hectare of land than the region under study as a whole. The

tahsil which are in the category of lower productivity than the average for

the region as a whole are Majalgaon, Patoda, Wadwani, Dharur and Parli.

(Figure 6.6)

7) YIELD LEVELS OF GROUNDNUT:-

Among the oil seeds, per hectare Groundnut occupational the most

important position Groundnut is use crush the oil production. 4300 kg. per

hectare yield of Groundnut was recorded for Beed district as a whole Kaij is

the first ranks tahsil in the yield per hectare of land in Beed district. Patoda

occupational the last rank in the yield production of Groundnut in Beed

tahsil. Kaij, Shirur and Dharur have recorded higher yield per hectare in

Beed district than the region as a whole other tahsils of the district his full in

grown of lower yield are Ashti, Wadwani, Georai, Ambejogai, Majalgaon,

Parli and Patoda socio, physical and economic factor of which other

variation for the yield in Beed district. (Figure 6.7)

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194

8) YIELD LEVELS OF COTTON:-

Cotton is one of the cash crop in the Beed district. It is grown is done

medium black Cotton soil. The average yield of Cotton soil for Beed district

as a whole was 63.18 bales per hectare of land in Georai, Beed, Kaij,

Dharur, Shirur and Patoda depicted the yield of Cotton much higher than the

region average for the region as a whole on other hand Ambejogai register

the lowest in per hectare of land for 2001. Other tahsil like Majalgaon, Parli,

Wadwani have shown lower production than the region average. (Figure 6.8)

9) YIELD LEVELS OF SUGARCANE:-

Sugarcane is most important cash crop in the region of study. Owing,

to increasing demand of sugar in day to day life, lines important of

Sugarcane have increase during the last decades. It is role in best suited

fertile soil it needs currently irrigation to sawed line crops. The yield per

hectare of land is recorded 1472256 metric ton per hectare of land for region

as whole in 2001. Majalgaon is the most important region in Sugarcane

production as it recorded highest is per hectare of land Beed district

production sugarcane production, Parli, Dharur, Shirur, Ashti, Georai had

higher production per hectare land than the average for the region. In order

of important which have lower production than average for the region are

Patoda, Wadwani, Ambejogai, Kaij and Beed tahsil in the region under

district. Sugarcane plays a dominant grown in the economic of the region.

As a result of good production of Sugarcane number of sugar factory have

been established. (Figure 6.9)

6.4 MEASUREMENT OF AGRICULTURAL PRODUCTIVITY:-

Identification and delineation of various areas of agricultural

productivity have been attempted by many scholars by using many

techniques. In the investigation, three methods such as Kendal's, ranking co-

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196

efficient methods, yield index method and Bhatia's method have been used

for the measurement of agricultural productivity in Beed district. The

weakness of Kendal's ranking co-efficient method was modified later due to

neglect of the aerial strength of crops hence, it was removed by Sapre and

Deshpande, (1964). After that, further, modification has been attempt by

Bhatia (1967).

Table 6.4 Yield index of major crops in Beed district (2000-01)

Sr.

No.

Tahsil Yield Index

Rice Wheat Jawar Bajra Gram Tur Groundnut

1 Ashti 71 109 79 137 83 116 99

2 Patoda 115 65 152 69 166 86 71

3 Shirur 74 35 121 41 99 102 109

4 Georai 133 92 130 115 67 132 96

5 Majalgaon 101 106 108 103 102 93 94

6 Wadwani 90 133 944 67 86 88 101

7 Beed 155 136 116 121 112 109 111

8 Kaij 158 139 151 138 118 116 129

9 Dharur 81 91 60 85 76 84 104

10 Parli 77 75 70 80 70 66 86

11 Ambejogai 114 114 127 136 115 131 95

Source : Compiled by Author

197

Table 6.5 Measurement of productivity by Kendal's ranking co-

efficient, yield index, and by Bhatia's methods.

Sr. No.

Tahsil Index values total rank value

of crops

Kendal's method average ranking

co-efficient

Bhatia's method index values

composite value of index

1 Ashti 50 5.55 76.42

2 Patoda 58 6.44 93.28

3 Shirur 52 5.78 83

4 Georai 45 5.06 109.28

5 Majalgaon 51 5.66 101

6 Wadwani 66 7.33 215.57

7 Beed 38 4.22 122.85

8 Kaij 28 3.11 134.28

9 Dharur 64 7.11 83

10 Parli 78 8.66 76.28

11 Ambejogai 54 6.00 118.85

Source : Compiled by Author

6.4.1 Measurement of Productivity by Kendal's Ranking Co-Efficient

Method -

Here, the Kendal's ranking co-efficient method (1968) is used while

applying this technique, nine major crops grown in all the tahsils of the

district are selected. The crops have ranked in order to their yield per unit

area. Then the arithmetic mean of these rank is obtained, which Kendal

called as ranking co-efficient and the same is represented cartographically.

Lower the co-efficient value, higher is the productivity level of agriculture is

the main criterion of Kendal method.

198

Results and discussion:

Three areas of agricultural productivity have been identified as shown

in (Figure 6.10)

I. Areas of high productivity.

II. Areas of moderate productivity

III. Areas of low productivity. I. Areas of high productivity -

This category is confined largely to northern and eastern part of Beed

district comprising various like Parli, Wadwani, and Dharur tahsils.

The rivers in this area provide water for irrigation in Rabi Season. The

river basins have fertile soils and many farmers in this area are adopting new

inputs in agriculture by using, Fertilizers, machinery, improved seeds etc.

All the favorable factors and human efforts have resulted in the high

agricultural productivity in the region of Beed district.

II. Areas of Moderate productivity -

This category of productivity covers five tahsils of Ashti, Patoda,

Shirur, Majalgaon and Ambejogai. The co-efficient value in this area ranges

from 5.5 to 6.5. This region is quite famous for pulses cultivation. tahsils

like Ashti, Patoda and Shirur have fertile soil but paucity of water for

irrigation and high variability of rainfall have resulted into moderate

agricultural productivity. (Table 6.5)

III. Areas of low productivity -

The low productivity areas cover three tahsils, where the co-efficient

value is above 6.5. The high variability of rainfall and low intensity of

irrigation have led to low agricultural productivity in dry areas of the Beed

district. (Figure 6.10)

199

6.4.2 MEASUREMENT OF PRODUCTIVITY BY YIELD INDEX

METHOD:

The regional imbalance in agricultural productivity of Beed district is

measured by using index method. While applying this method, the nine

crops grown in most of the tahsil are selected. The yield index of each crop

is calculated by the equation given below:

Yield of crop : Yield of crop V in the areal unit x 100 Yield of crop 'a' in the region.

Then the composite yield index was obtained for each tahsil and the same is

represented cartographically on the map of Beed district.

Results and discussions:

Three categories such as: (1) Areas of high productivity. (2) Areas of

moderate productivity and (3) Areas of low productivity have been

identified as given below

I. Areas of high productivity -

It is mainly confined to the central and eastern part of district

excluding Ambejogai tahsil. Thus, the tahsils of Shirur, Dharur and Parli

have recorded high productivity, (Figure 6.11)

II. Areas of moderate productivity-

This category of productivity is mainly , observed in three tahsils of

western part of Beed and two tahsils of eastern part of the district namely

Majalgaon, Ambejogai.The rainfall is low in Ashti tahsil. Irrigation facilities

are not more developed. The average yield of crop is low. Kharif crops are

dependent on monsoon and Rabi crops are grown only where water is

available for irrigation.

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201

III. Areas of low productivity -

In the central part of Beed district low production is recorded. This

part consists of Georai, Beed and Kaij tahsils. Hence, the yield of some

crops is very low. The irrigation facilities are not developed. Agricultural

implements are old and traditional. Rainfall is uncertain, thus, the combined

effect of all these factors leads to the low agricultural productivity. (Figure

6.11)

6.4.3 Measurement of Productivity by Bhatia's Method:

The levels of agricultural productivity are the result of natural

environment and partly of human activities. It is a dynamic concept and any

change in above factors may affect agricultural production. Thus, to reckon

the regional differences in levels of agricultural productivity here, Bhatia's

weighted average yield index is also used. Nine crops are selected for this

purpose and weights are given by taking, crop land devoted to each crop.

This has been represented as given under,:

yc

i) lya = ---------- x 100 yr

lya = yield index of crop 'a'

yc = yield of crop 'a' in the areal unit.

Yr = yield of crop 'a1 in the region,

lya x Ca + lyb x cb +------------------ lyn cn. ii) Ap = -----------------------------------------------------

Ca + cb + ----------------- cn.

Ap = Agricultural productivity.

lya, lyb ------------------ Iyr.= Yield index of various crops.

Ca,Cb ------------------- cn percent of cropland under different crops.

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203

On this basis, the agricultural productivity of each taluka of Beed

district has been computed and mapped (Figure 6.12)

Result and discussions -

Figure 6.12 brings out the general pattern of regional imbalances in

the levels of agricultural productivity. For discussion, the region is grouped

into three categories namely: i) Areas of high productivity, {ii) Areas of

moderate productivity and. (iii) Area of low productivity.

I. Areas of high productivity -

The area in this category includes only two tahsils of the district, namely,

Wadwani and Kaij. This area coincides with the area of laterite to deep black

soils and high intensity of irrigation. This has been reflected in high

agricultural productivity. The highest productivity is recorded in Kaij and

Wadwani tahsils of Beed.

II. Areas of moderate productivity-

The tahsils of Beed, Georai, Majalgaon and Ambejogai have moderate

agricultural productivity with the development of irrigation facilities, these

tahsils may be improved even in the higher productivity in future.

III. Area of low productivity-

The areas of low level of agricultural productivity occur in all the

remaining tahsils of Beed district. Here, local factor such as poor soils and

very low intensity of irrigation affect the low level of agricultural

productivity. In this part of the district, the level of crop production per unit

area can also be raised by using improved seeds and increasing irrigation

facilities. (Figure 6.12)

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205

REFERENCES

1. Bhatia, S. S. (1967): Spatial Variation, Changes and trends in

agricultural efficiency in U.P. 1953-1963. India journal of

Agricultural economics. Vol22. No. i, PP. 66-80.

2. Buck J. L. (1967): Land Utilization in China Vol. 1 Nanking

University of Nanking.

3. Dayal. E. (1984): "Agricultural productivity in India - A Spatial

Analysis". PP. 27-38.

4. Gopal Krishna, M D. and Rao, T. R. (1964): "Regional Variations in

Agricultural productivity in Andhara Pradesh," Indian Journal of

Agricultural Economics, Vol. 19, NO. 1. PP. 227-236.

5. Grag, J. S. (1964): "Variations studies in the Agricultural

Development of productivity in the eastern and western Regions of

U.P." India Journal of Agricultural Economics, Vol. 19, No. 1. PP.

193-197.

6. Hirch, H. G. (1943): "Crop Yield index," Journal of Farm economics,

vol-25, No. 3, P-583.

7. Hussian, M. (1976): "A New approach to the Agricultural productivity

Regions of the Sutlej-Ganga plains of India" Geographical Review of

India, Vol. 36, PP. 230-236.

8. J. Kustroweeki (1964) Geographical Typology of Agriculture in

Poland methods and problems, Geographic Polorica vol. I

1964. P. 127.

9. Jasbir Singh and S. S. Dillon (1997) : Agricultural Geography,

Tata McGraw Hill Publishing Co. Ltd. Delhi p. 226.

10. Jasbir Singh etal (1982) Determinants of Agricultural

Productivity in Haryana-A. Sample study of operational

206

holding & for landuse planning Kurukshetra Visal Publication

p. 509.

11. Kendal, M.G.W. (1967): The geographical distribution of crop

productivity in England, 'Spatial Geography. Ed, Barry and Marbel.,

P.P. 387-406.

12. Kendall M.G. (1939), The Geographical Distribution of crop

productivity in England Journal of Royal Statistical Society

162. Pp. 24-28.

13. Khusrao A. M. (1964) Returns to sale in Indian Agricultural

Indian Journal of Agricultural Economics 19 pp. 52-53.

14. Mishra R.P. (1968) Diffusion of Agricultural Innovation,

Prasranga University of Mysore p. 140-144.

15. Momaria, C.B. (1969): Agricultural Problems of India. Kitab Mahal.

Allahaband., P. 718.

16. Noor Mohammad and Singh, R. (1981): "Measurement of crop

productivity" Perspectives in Agricultural Geography, Vol. 4, Concept

publishing company, P. 159.

17. Ramanaiah, Y.V. and Reddy. N.B.K. (1984): Regionalization of

agricultural productivity in A.P. Transactions Institute of Indian

Geographers, Vol. 6. No. 1. PP. 1-17.

18. Roy P. Kivlin, J. Ellegel and Sen Leli T (1971) Two Baldes of

grasso National institute of Community Development p.1.

19. Shafi Mohammad (1960), Measurement of Agricultural

Efficiency in Uttar Pradesh Economic Geography pp. 296-305.

20. Shafi, M. (1972): "Measurement of Agricultural productivity of the

Great Indian Plains The Geographer, Vol. 19, PP. 7-9,

21. Sharma, J. S. (1965): "Measurement of Agricultural Productivity"

concept, Definition etc. PP. 5-11.

207

22. Singh G. B. (1979) Transformation of Agriculture Kurukshetra

Vishal Publication p. 129.

23. Singh V.R. (1965): UA method for Analyzing Agricultural

Productivity" Transactions, Institute of Indian Geographers, PP. 39-

46.

24. Singh, Jasbir (1975): An Agricultural Atlas of India: A geographical

Analysis. Vishal publication, Kurukshetra, India, PP. 263-298.

25. Spare S. G. and Deshpande V. S. (1964), Inter District

variations in Agricultural Efficiency in Maharashtra State.

Indian Journal of Agricultural Economics 19 pp. 242-252.

26. Spare, S.G. and Despande, V.D. (1964): Inter-district Variations

in agricultural efficiency in Maharashtra State. Indian Journal

of Agricultural Economics, Vol. 19, No. 1., PP. 215-233.

27. Stamp L. D. (1960), our Developing World London Faber and

Faber pp. 108-109.

28. Vaid, V. (1985): Agricultural Productivity of Maharashtra: A Spatio-

Temporal Analysis" Dissertation for M. Phil, (Unpublished

Department of Geography, University of Poona, Poona. PP. 59-81.