A Case Study of Paschim Medinipur District, West Bengal

A Case Study of Paschim Medinipur District, West Bengal

NGJI, An International Peer-Reviewed Journal NGSI-BHU, ISSN: 0027-9374/2019/1718 Vol. 65, No. 4, December 2019 Spatio-Temporal Variations in Paddy Cultivation: A Case Study of Paschim Medinipur District, West Bengal Rajeeb Samanta1 and Ranjana Bajpai2 1Assistant Professor Department of Geography, P. K.College, Purba Medinipur, W.B. 2Associate Professor Department of Applied Geography, Ravenshaw University, Cuttack (Corresponding Email: [email protected]) Abstract Agricultural growth leads to broad-based economic growth and development as linkages between farm and non-farm economies generate income and growth. Agricultural growth, in true sense denotes a change in crop area and production over different time periods. It plays a key role in alleviation and eradication of rural poverty and hunger. Paschim Medinipur district is predominantly an agricultural district of West Bengal where more than 80 percent of the total population resides in the villages, with surplus production of paddy, vegetables and potato. The cultivators constitute 22.80 percent of the total working population of 25.91 lakhs in the district; small and marginal farmers comprise 31.14 percent of the total cultivators and contribute 28.39 percent to Net District Domestic Product. Present study is focused upon the changing growth pattern and instability in area and yield of major paddy varieties (aus, aman, boro) in Paschim Medinipur district from 1992-93 to 2012-13, at district and blocks. Growth and instability in paddy have been measured by growth rate (%) and Cuddy Della Valle Index (CDVI) respectively. The study reveals that positive growth rate in area was found in case of boro, whereas growth in area under aus and aman was found to be negative. Seasonal and annual variability in monsoon contributes to the annual variability of growth in area and yield of aus and aman. Overall, there was stability in area and yield for all the three crops in the district, but there were widespread intra-block disparities in crop area and production in the district in terms of growth and instability. Keywords: Intra-block, growth, Cuddy Della Valle Index, paddy, area, yield, Introduction Agricultural growth and instability have outputs in terms of area, production, yield and been one of the major concerns of discussion in price between two given time periods. agricultural economics and matter of endless Instability is the uctuation in growth caused debate in India. Instability is the inherent by physical, social, economic and behavioral character of agricultural growth. Here, growth factors. Despite rapid growth in agricultural denotes rate of change over time, whereas technology, large annual uctuations in agricultural growth means rate of change in agricultural output are a matter of concern, Spatio-Temporal Variations in Paddy Cultivation: A Case Study of Paschim Medinipur... 351 more so in Indian context. These uctuations came into existence in the present form on the are caused by frequent oods and droughts, 1st January 2002. Paschim Medinipur district is resulting in negative growth in agriculture. In the southernmost district of the Burdwan addition, spatio-temporal variability in Division, is situated between 210 36' 35” and 220 adoption of new technology in the form of 57' 10” North latitudes and between 860 33' 50” HYV seeds, fertilizers, irrigation and farm and 880 12' 40” East longitudes. Its boundary implements accentuate these uctuations in lies in Bankura and Purulia districts in the agricultural production. Agricultural instability north, Mayurbhanj and Balasore districts of increases the risk of farm production and Odisha in the south, Hugli and Purba affects farmers' income and decisions to adopt Medinipur districts in the east and Singbhum high cost technologies. Instability in district of Jharkhand and part of Odisha in the production affects the market price of outputs west. The total geographical area of Paschim and ultimately affects low income marginal Medinipur district is 9345.00 sq. km. and farmers. Existing literature regarding the contains twenty-nine blocks. Net cropped area relationship between growth and instability of of the district is about of 5, 73,575 ha (Census, area and yield may be categorized into two 2011). Major crops grown in the district are periods i.e. pre-green revolution and post- paddy (aus, aman and boro), wheat, potato, green revolution phase. The present study vegetables, oilseeds, pulses, sugarcane, jute, includes post-green revolution time period for maize, betel vine, mat-stick etc. The district is the analysis (due to non-availability of block surplus in production of cereals, potato and level individual crop data before 1992). The other vegetable crops. Objectives of the present study conducted by Mehra (1981) and Hazell study are to measure spatio-temporal growth (1982) reveal that adoption of new technology and instability of paddy varieties (seasonal) has been instrumental in increasing instability and to understand the relationship between in area and production. According to Ray growth and instability of paddy varieties in (1983a) levels of instability increased after Paschim Medinipur district. green revolution. Rao et. al. (1988) supported Data sources and Methodology the views of Mehra (1981), Hazell (1982) and The study uses a time-series secondary Ray (1983b) and opined that amplitude of data on area and yield of aus, aman and boro uctuation in output signicantly increased in (seasonal paddy varieties) from the period post-green revolution periods. Larson et. al. 1992-1993 to 2012-2013. Due to non- (2004) concluded that green revolution played availability of block level individual crop data a very signicant role in increasing production before 1992, the secondary data were collected but contributes to higher instability in from various issues of District Statistical production and yield. In contrast to this, other Handbook Paschim Medinipur district studies reported that instability declined with during1992-1993 to 2012-2013. The period of g r o w t h o f a g r i c u l t u r e ( D a s , 1 9 7 8 ; study was categorized into four periods - 1993 Mahendradev, 1987; Tripathy, 1990; Sharma to 1997, 1998 to 2002, 2003 to 2007 and 2008 et. al. 2006; Chand & Raju, 2009). to2013, to make the analysis more comparative Study Area for the measurement of instability in area and Located in the southern part of West yield among crops and periods as well. Bengal, Paschim Medinipur has been carved Growth rate in area and yield was from the erstwhile Medinipur district, and calculated with the help of percentage of 352 Rajeeb Samanta and Ranjana Bajpai growth rate for three seasonal varieties of R2= Coefcient of Determination paddy i.e. aus, aman and boro. To reduce the The low value of this index indicates low effects of production uctuation due to climatic instability in area and yield and vice-versa. variability three-year average data of area and Cuddy Della Valle Index values were divided yield of each crop was calculated, followed by into ve categories which represent the estimation of their growth rates. different ranges of instability to make the Growth (%) = analysis more comparative by different crops in Where, Paschim Medinipur district. Based on 100 P1= Value of Previous year (percentage of percent instability value blocks were categories area or yield) into equal ve classes: very high instability P2=Value of Present year (percentage of (Above 80), high instability (80-60), moderate area or yield) instability (60-40), low instability (40-20) and The study used Cuddy Della Valle Index very low instability (below 20). (CDI) to measure crop instability in area and Result and Discussion yield (Cuddy and Valle, 1978). Many studies Periodic Growth of Aus Paddy (Hazell, 1982; Larson, 2004 and Alemu, 2005) Paddy is the principal cereal crop of have applied coefcient of variation (CV) to Paschim Medinipur district and is mainly show variation but there are some limitations in produced on a subsistence basis. One of the time-series data analysis. In general, seasonal varieties of paddy which is cultivated measurement of instability of time series data in summer and harvested in autumn is locally using coefcient of variation considered the known as aus. It is a high-water consuming linear relationship among variables, but in crop. The available data shows that growth rate major cases the reality was different as the of area under aus was positive during the rst studies ignored the non-linear pattern of period, but thereafter, declines to negative relationship. So, simple CV can over-estimate continuously for the next ve periods (Figure the instability level. In this regard, Cuddy- 1). Yield of aus started decreasing after 1999- Della Valle Index rstly investigates the 01 to 2002-04, a trend that continued up to appropriate relationship, i.e., whether it is 2008-10 to 2011-13. Paschim Medinipur linear or non-linear then calculates magnitude district experienced a better growth of yield of of instability. In the present study, Cuddy-Della aus from 1999-01 to 2002-04. Valle Index (Ix) attempted to de-trend the CV From 1993-95 to 2011-13, seven blocks of by using coefcient of determination (R2). the district showed positive growth in area of Thus, Cuddy-Della Valle indices (Ix) enable a aus, among which Pingla, Sabong, Daspur-I, better measure of instability. Further, linear Daspur-II and Ghatal performed exceptionally trend model (Ix1) and log-linear trend model better compared to other blocks. Negative (Ix2) both were tested. Accordingly, level of growth in area was registered in Binpur-II, signicance CV, IX1 or IX2 were chosen. Kharagpur-I and Chandrakona-II where cent Appropriate Instability index can be percent area had decreased. Except Salboni and expressed as: Garbeta-I, remaining blocks stopped the Ix= production of aus. But surprisingly, the yield of Ix= Appropriate Instability Index (Cuddy aus increased across the blocks except in Della Valle Index) Binpur-I, Debra, Chandrakona-I, Kharagpur-I, CV= Coefcient of Variation Dantan-I and Dantan-II (Figure 4).

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