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Reports suggest that the first reactor of the Kudankulam power plant is close to operational. With state discoms struggling, advocates of nuclear power see Kudankulam as a necessary boost to India’s struggling power sector. The Kudankulam power plant will have two reactors. At full capacity, the plant would produce 2 GW of energy, making it India’s largest nuclear plant, and significantly increasing India’s nuclear capacity (currently at 4.8 GW or 2.3% of total capacity). Internationally, nuclear power plants contributed 12.3 % of the world's electricity production in 2011. In terms of number of nuclear reactors, India ranks 6th in the world with 20 nuclear reactors (in seven power stations across five states: Rajasthan, Uttar Pradesh, Gujarat, Karnataka and Tamil Nadu). The Kudankulam power station would be Tamil Nadu’s second power station after the Madras Atomic Power Station (MAPS). Tamil Nadu is struggling to meet electricity demand, recently moved the Supreme Court, asking the Centre for more power. Peak demand deficit (the difference between electricity supply and demand at peak periods) in the state was 17.5% in 2011-12. The per capita consumption of electricity in the state was 1,132 kWh in 2009-10, significantly greater than the India average of 779 kWh. Currently, electricity in Tamil Nadu is fueled by a mixture of coal (35% of capacity), renewable sources (42%) and hydro sources (12%). A fully operational Kudankulam reactor would boost Tamil Nadu’s capacity by 6% (including state, private and centrally owned generating entities). The interactive table below provides a state-level breakdown of key power sector indicators. To view data in ascending or descending order, simply click the relevant column heading. (For a detailed overview of the power sector and even more state-wise statistics, see here.) [table id=4 /] Source: Central Electricity Authority; Planning Commission; PRS. Note: capacity for states includes allocated shares in joint and central sector utilities. T&D (transmission and distribution) losses refer to losses in electricity in the process of delivery
Recently, the Cabinet Committee on Economic Affairs approved an increase in the Minimum Support Prices (MSPs) for Kharif crops for the 2018-19 marketing season. Subsequently, the Commission for Agricultural Costs and Prices (CACP) released its price policy report for Kharif crops for the marketing season 2018-19.
The central government notifies MSPs based on the recommendations of the CACP. These recommendations are made separately for the Kharif marketing season (KMS) and the Rabi marketing season (RMS). Post harvesting, the government procures crops from farmers at the MSP notified for that season, in order to ensure remunerative prices to farmers for their produce.
In this blog post, we look at how MSPs are determined, changes brought in them over time, and their effectiveness for farmers across different states.
How are Minimum Support Prices determined?
The CACP considers various factors such as the cost of cultivation and production, productivity of crops, and market prices for the determination of MSPs. The National Commission on Farmers(Chair: Prof. M. S. Swaminathan) in 2006 had recommended that MSPs must be at least 50% more than the cost of production. In this year’s budget speech, the Finance Minister said that MSPs would be fixed at least at 50% more than the cost of production.
The CACP calculates cost of production at three levels: (i) A2, which includes cost of inputs such as seeds, fertilizer, labour; (ii) A2+FL, which includes the implied cost of family labour (FL); and (iii) C2, which includes the implied rent on land and interest on capital assets over and above A2+FL.
Table 1 shows the cost of production as calculated by the CACP and the approved MSPs for KMS 2018-19. For paddy (common), the MSP was increased from Rs 1,550/quintal in 2017-18 to Rs 1,750/quintal in 2018-19. This price would give a farmer a profit of 50.1% on the cost of production A2+FL. However, the profit calculated on the cost of production C2 would be 12.2%. It has been argued that the cost of production should be taken as C2 for calculating MSPs. In such a scenario, this would have increased the MSP to Rs 2,340/quintal, much above the current MSP of Rs 1,750/quintal.
Which are the major crops that are procured at MSPs?
Every year, MSPs are announced for 23 crops. However, public procurement is limited to a few crops such as paddy, wheat and, to a limited extent, pulses as shown in Figure 1.
The procurement is also limited to a few states. Three states which produce 49% of the national wheat output account for 93% of procurement. For paddy, six states with 40% production share have 77% share of the procurement. As a result, in these states, farmers focus on cultivating these crops over other crops such as pulses, oilseeds, and coarse grains.
Due to limitations on the procurement side (both crop-wise and state-wise), all farmers do not receive benefits of increase in MSPs. The CACP has noted in its 2018-19 price policy report that the inability of farmers to sell at MSPs is one of the key areas of concern. Farmers who are unable to sell their produce at MSPs have to sell it at market prices, which may be much lower than the MSPs.
How have MSPs for major crops changed over time?
Higher procurement of paddy and wheat, as compared to other crops at MSPs tilts the production cycle towards these crops. In order to balance this and encourage the production of pulses, there is a larger proportional increase in the MSPs of pulses over the years as seen in Figure 2. In addition to this, it is also used as a measure to encourage farmers to shift from water-intensive crops such as paddy and wheat to pulses, which relatively require less water for irrigation.
What is the effectiveness of MSPs across states?
The MSP fixed for each crop is uniform for the entire country. However, the production cost of crops vary across states. Figure 3 highlights the MSP of paddy and the variation in its cost of production across states in 2018-19.
For example, production cost for paddy at the A2+FL level is Rs 702/quintal in Punjab and Rs 2,102/quintal in Maharashtra. Due to this differentiation, while the MSP of Rs 1,750/quintal of paddy will result in a profit of 149% to a farmer in Punjab, it will result in a loss of 17% to a farmer in Maharashtra. Similarly, at the C2 level, the production cost for paddy is Rs 1,174/quintal in Punjab and Rs 2,481/quintal in Maharashtra. In this scenario, a farmer in Punjab may get 49% return, while his counterpart in Maharashtra may make a loss of 29%.
Figure 4 highlights the MSP of wheat and the variation in its cost of production across states in 2017-18. In the case of wheat, the cost of production in Maharashtra and West Bengal is much more than the cost in rest of the states. At the A2+FL level, the cost of production in West Bengal is Rs 1,777/quintal. This is significantly higher than in states like Haryana and Punjab, where the cost is Rs 736/quintal and Rs 642/quintal, respectively. In this case, while a wheat growing farmer suffers a loss of 2% in West Bengal, a farmer in Haryana makes a profit of 136%. The return in Punjab is even higher at 1.5 times or more the cost of production.
