A study was undertaken in Karimnagar and Warangal districts falling under the Godavari command area of Telangana to analyze the economics of irrigation among the farm households across surface water (SW), groundwater (GW) and conjunctive use (CU) regimes. Data was analyzed using descriptive statistics and natural resource economics tools. The farms under CU realized higher net returns per acre (₹ 11792) followed by GW farms (₹ 8229) and SW farms (₹ 7516). There was also an enhanced savings to the extent of ₹ 10900 per acre due to reduction in the expenditure on human labour, machine labour, marketing and irrigation cost under CU regime when compared to GW regime. The per annum volume of surface water used in the case of SW farms and CU farms was 263 acre inches and 182 acre inches, respectively. Volume of water used in case of CU is less when compared to SW regimes. Annual cost of irrigation water per acre was found to be highest in GW farms (₹ 6916) when compared to SW (₹ 1284) and CU (₹ 4063) farms. This study has shown the potential benefits of CU regime over SW and GW regime.
This study focusses on quantification of water under three regimes of irrigation and also estimation of cost and returns of different crops cultivated in the command area.
India is an agricultural economy where 80 to 85 per cent of the water is used for irrigation. It was estimated that about 40 per cent of the cultivated area is irrigated and among the irrigated area about 70 per cent is devoted to food crops to meet the needs of the ever-growing population (Badri, 2018). Thus, in tropical countries like India, irrigation plays a vital role in securing food for the masses. As the supply of land is highly inelastic and the net sown area growth is impossible and this has led to the dependence of agricultural productivity on efficient use of water and land resources. Irrigation has also greatly facilitated to diversify the cropping pattern towards high-value crops. Irrigation not only improved the food production and economic conditions of a large number of farmers but also contributed immensely towards ensuring food production and alleviating poverty. These benefits of the water through irrigation have increased the demand for water at an exploiting rate.
Water is usually treated as a ‘public good’ and has been over-exploited for years leading to its scarcity. In the command areas at the canals, farmers at the head reach areas over harvest the water from the canal due to its abundant availability. This led to the scarcity of water or less availability of this resource to the tail and mid reach farmers along the canal. This increase in the scarcity of water made the farmers to rely more on groundwater to irrigate the crops. As there is no assured source of surface water availability, farmers started digging a greater number of wells to exploit ground water without caring for its regeneration. Transaction costs have also become high for the tail end farmers due to free riding and illegal extraction of water which enhanced the guarding time of the tail reach farmers resulting in higher transaction cost (
While surface irrigation has been stagnating, groundwater irrigation has been increasing. Policies towards electricity, credit, technological innovations in well exploration, extraction and use, demographic shifts, lucrative product markets and weak groundwater institutions are contributing to overextraction. In the last four decades, groundwater extraction exhibited a trajectory of utilization, boom, growing scarcity and eventually bust with rapid fall in groundwater table in the hard-rock aquifers. This has forced several marginal and small farmers to shift to dry land agriculture.
To tackle this challenge of over-exploitation, a new method called conjunctive use of water was evolved where water from both the sources (surface and ground) are used. This method has the potential to offer economic and social outcomes with increased water use efficiency. Hence, this study was taken to estimate the cost of irrigation and economics of irrigation major crops under surface water (SW), Groundwater (GW) and Conjunctive water (CU) use regimes.
Godavari command area, falling under Karimnagar and Warangal districts of Telangana, was purposively selected as the study area. A random sampling technique was employed to select the farmer respondents, including 60 farmers dependent largely on Groundwater (GW), 60 farmers using Surface water (SW), and 60 farmers practicing Conjunctive Use of water (CU). The sample farmers were interviewed using the pre-tested and structured schedules to collect the required information. Secondary Data was collected from the Command Area Development Authority (CADA) regarding irrigation charges, cropping pattern, the area under command area, the storage capacity of the dam and so on.
A volumetric water meter was used to calculate the yield of water from irrigation bore well.
The methodology and approach of
Under variable cost component
And other costs which vary with the level of production such as labor cost, cost of inputs, marketing costs and interest on working capital etc., were calculated and under fixed costs, rental value of land, depreciation, interest on fixed capital and land revenue and taxes were considered.
The following form of Linear Dummy Variable Regression Model was employed to know the contribution of different irrigation regimes to the farm’s net returns.
Where,
The information on the cost of groundwater in the study area is required to make economic analysis of different crops. Hence, results on prices of irrigation water were estimated on volumetric basis and results are presented in
Based on the size of land holding and per acre inch cost of groundwater, the per farm per annum cost of ground water irrigation in the case of GW farms and CU farms stood at ₹ 34186 and ₹ 16864, respectively. The annual cost of irrigation water per acre was found to be ₹ 1284, ₹ 6916 and ₹ 4063, in SW, GW and CU regimes respectively (
The
The Linear Dummy Variable Regression Model as given in methodology was employed to assess the contribution of different irrigation regimes to the farms’ net returns. The dependent variable (net returns) was regressed with quantity of water used, two dummy variables
Volumetric pricing of irrigation water in three different water use regimes
Marginal productivity of irrigation across different irrigation regimes (n=180)
The estimated net returns (₹/farm/year) for SW, GW and CU regimes using the estimates of regression model are as follows.
Where,
As mentioned earlier, per farm annual net returns were regressed against quantity of water used from different sources by the farm in the entire year. The intercept dummy coefficient captures the influence of technology on net returns realized.
It could be observed from the
The estimated regression function indicated that the bench mark net return of ₹ 24776.3 per farm represents the returns to surface water irrigation where groundwater and conjunctive use are not followed. The net returns per farm due to conjunctive use and groundwater use were ₹ 46614.15 and ₹ 30191.91 respectively and are economically substantial, which is one of the main objectives of the present study of estimating the economic returns to technology of conjunctive use of water (
The
Paddy which is a water-intensive crop was the only crop grown under surface water and it is also the staple crop of Telangana region. Volume of water used per acre was found to be 77.93 acreinches. Total cost of cultivation was estimated to be ₹ 33042 per acre, out of which total fixed costs was around ₹ 10570 (32 %) and total variable cost ₹ 22472 (68 %). Due to highly subsidised water rates in case of surface water irrigation, irrigation cost was estimated to be ₹ 1284 per acre. Gross returns were estimated to be ₹ 40558 with an average yield of 24 quintals per acre. The percentage difference between net returns with irrigation cost and without irrigation cost was found to be 17 per cent.
To know the contribution of irrigation water to the net returns, net returns per rupee of irrigation cost was calculated which stood at ₹ 5.85. This implies that, every one rupee of expenditure incurred on irrigation would yield a net return of ₹ 5.85 (
In case of CU regime, share of irrigation cost in the total cost of cultivation was in the range of 7 per cent (cotton) to 13 per cent (maize). Volume of water used was highest in maize crop (24 acre-inches) followed by paddy (23 acre-inches) and cotton (18 acre-inches). The share of variable cost in total cost was the highest in cotton (71 %) and lowest in paddy (61 %). There was not much variability in the share of the fixed cost to the total cost which varied between 29 (cotton) and 39 per cent (paddy). Returns per rupee of variable cost were estimated to be around ₹ 2.36 in paddy and ₹ 1.77 in cotton. Net returns per rupee of irrigation were highest in paddy (₹ 4.08) (
Cost and returns of principal crops under surface water regime in Godavari command area (₹/acre)
Cost and returns of principal crops under conjunctive water regime in Godavari command area (₹/acre)
Cost and returns of principal crops under ground water regime in Godavari command area (₹/acre)
In case of GW regime, share of irrigation cost to the total cost of cultivation was in the range of 15 per cent (cotton) to 22 per cent (paddy). Amount of water used was highest in paddy crop (27 acreinches) followed by maize (21 acre-inches) and cotton (20 acre-inches). The share of variable cost in total cost was the highest in maize (69 %) and lowest in paddy (61 %). There was not much variability in the share of the fixed cost to the total cost which varied between 31 (maize) and 39 per cent (paddy). Returns per rupee of variable cost were estimated to around ₹ 1.96 in paddy to ₹ 1.73 in maize. Net returns per rupee of irrigation was the highest in cotton (1.47) and the lowest in paddy (0.95) (
I would like to thank all the farmers and officials of Command Area Development Authority (CADA) who spared their valuable time in providing the information and to ICAR-IIWM, Bhubaneshwar for providing financial support to undertake the study.
The scientific pricing of water shows the underpricing or under estimation of water cost in surface water regimes when compared to this study on Economic analysis of different water use regimes in Godavari command area. So, this study can be used as a reference to relook upon the pricing of water based on volume of water used in case of surface water regime and revise water rates in the command area. Other results have shown the superiority of conjunctive use over other two regimes.