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Revisiting Groundwater Depletion and its Implications on Farm Economics in Punjab, India
The study identifies factors behind the groundwater depletion in Punjab (India) and examines the economics of groundwater irrigation across farm-size categories, varied groundwater levels and energy policy scenario. The farm-level evidences point out that farmers with smaller land holdings incur 2-3 times groundwater cost than those with larger land holdings. Also, small farmers are affected more adversely due to falling groundwater level. Further, financial expenses in extracting groundwater are borne equally by the society and the farmers. The withdrawal of energy subsidy is expected to reduce net returns, but at a varying rate across different crops. However, crop cultivation would still be profitable and desubsidization will result in 29-82% savings in existing groundwater use in different crops.
Keywords
Crop Profitability, Energy Subsidy, Farm Economics, Groundwater Depletion.
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- Sidhu, R. S., Vatta, K. and Dhaliwal, H. S., Conservation agriculture in Punjab: economic implications of technologies and practices. Indian J. Agric. Econ., 2010, 53(3), 1413–1427.
- Kaur, S. and Vatta, K., Groundwater depletion in central Punjab: pattern, access and adaptations. Curr. Sci., 2015, 108(4), 485–490.
- Kaur, B., Sidhu, R. S. and Vatta, K., Optimal crop plans for sustainable water use in Punjab. Agric. Econ. Res. Rev., 2010, 23, 273–284.
- Sarkar, A., Scio-economic implications of depleting groundwater resources in Punjab: a comparative analysis of different irrigation systems. Econ. Polit. Wkly, 2011, 46(7), 59–66.
- Srivastava, S. K. et al., Unsustainable groundwater use in Punjab agriculture: insights from cost of cultivation survey. Indian J. Agric. Econ., 2015, 70(3), 365–378.
- Gupta, S., Groundwater management in alluvial areas. In Technical Paper in Special Session on Groundwater in the Fifth Asian Regional Conference on Indian National Committee on Irrigation and Drainage (INCID), New Delhi, 2009.
- Srivastava, S. K., Srivastava, R. C., Sethi, R. R., Kumar, A. and Nayak, A. K., Accelerating groundwater and energy use for agricultural growth in Odisha: technological and policy issues. Agric. Econ. Res. Rev., 2014, 27(2), 259–270.
- Ballabh, V., Policies of water management and sustainable water use. Indian J. Agric. Econ., 2003, 58(3), 467–476.
- Ghosh, S., Srivastava, S. K., Nayak, A. K., Panda, D. K., Nanda, P. and Kumar, A., Why impacts of irrigation on agrarian dynamism and livelihoods are contrasting? Evidence from eastern India states. Irrig. Drain., 2014, 65(3), 573–583.
- Sekhri, S., Sustaining groundwater: role of policy reforms in promoting conservation in India. In India Policy Forum, 2012/2013 (eds Shah, S., Bosworth, B. and Panagariya, A.), Sage Publications, New Delhi, 2013, vol. 9, pp. 149–176.
- Sarkar, A. and Das, A., Groundwater irrigation–electricity–crop diversification nexus in Punjab: trends, turning points and policy initiatives. Econ. Polit. Wkly, 2014, 49(52), 64–73.
- Malik, R. P. S., Energy regulations as a demand management option: potentials, problems, and prospects. In Strategic Analyses of the National River Linking Project (NRLP) of India, Series 3, Promoting Irrigation Demand Management in India: Potentials, Problems and Prospects (ed. Saleth, R. M.), International Water Management Institute, Colombo, Sri Lanka, 2008, pp. 71–92.
- Chand, R., Emerging crisis in Punjab agriculture: Severity and options for future. Econ. Polit. Wkly, 1999, 34(13), A2–A10.
- Kumar, D., Demand management in the face of growing water scarcity and conflicts in India: Institutional and policy alternatives for future. In Water Resources and Sustainable Livelihoods and Eco-System Services (eds Chopra, K., Rao, C. H. H. and Sengupta. R.), Concept Publishing Company, New Delhi, 2009, pp. 97–131.
- Kulkarni, H. and Shah, M., Punjab water syndrome: diagnostics and prescriptions. Econ. Polit. Wkly., 2013, 48(52), 64–73.
- Government of India, Fourth Census of Minor Irrigation Schemes Report, Ministry of Water Resources, River Development and Ganga Rejuvenation, New Delhi, 2014.
- Central Groundwater Board, Dynamic Groundwater Resources of India (as on 31 March 2011). Ministry of Water Resources, River Development and Ganga Rejuvenation, Faridabad, 2014.
- Government of Punjab, Punjab at a Glance (district-wise), Economic Advisor to Government of Punjab, Department of Planning, 2012.
- Central Groundwater Board, Master plan for artificial recharge to groundwater in India, Ministry of Water Resources, Government of India, 2013; http://cgwb.gov.in/documents/MasterPlan2013.pdf.
- Singh, K., Act to save groundwater in Punjab: its impact on water table, electricity subsidy and environment. Agric. Econ. Res. Rev., 2009. 22 (conference issue), 365–386.
- Kaul, J. L. and Sekhon, S., Flexibility and reliability of irrigation systems and their effect on farming: a case of Punjab. Indian J. Agric. Econ., 1991, 46(4), 587–592.
- Singh, D., Who gains and who loses in the game of groundwater markets in water-scarce regions. Agric. Econ. Res. Rev., 2007, 20(2), 345–360.
- Moench, M. H., Chasing the water table: equity and sustainability in groundwater management. Econ. Polit. Wkly., 1992, 27(51–52), A171–A177.
- Rosegrant, M., Water resources in 21st century: challenges and implications for action. Food, Agriculture and Environment Discussion Paper 20, International Food Policy Research Institute, Washington, USA, 1997.
- Kumar, M. D., Impact of electricity prices and volumetric water allocation on energy and groundwater demand management: analysis from western India. Energ. Policy, 2005, 33(1), 39–51.
- Briscoe, J. and Malik, R. P. S., India’s Water Economy: Bracing for a Turbulent Future, Oxford University Press, New Delhi, 2006.
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