Abstract
In the north-western part of India, especially in Punjab and Haryana plains, the groundwater overdraft increases the cost of its withdrawal for irrigation and causes inequality in its access to farmers. As a result, groundwater markets are gradually emerging as pervasive agrarian institutions. In this research, the groundwater market structure has been studied in Haryana state and Karnal district has been chosen as the study area. For the survey, three villages are selected by the purposive sampling technique. The 300 households (100 households from each village) are selected by the simple random sampling technique. The primary data are collected by close-ended structured scheduled, interviews, and focus group discussions methods from the selected villages between the periods of May to September 2019. The study reveals that groundwater markets help to mitigate the increasing inequalities in groundwater access. The results show that almost 50% of the farming households have participated in the groundwater markets. There is a positive correlation (R2 = 0.6176) between water selling and farm size and a negative correlation (R2 = − 0.9828) between water buying and farm size. Groundwater scarcity, land fragmentation, and no tubewell on their own land have been observed as primary factors for the participation of farmers in groundwater markets. The most popular mode of water transactions is cash-based (hourly), which shows the mature stage of groundwater markets in the study area. Groundwater trade for irrigation is maximum under two crops, rice (45%) and wheat (46%), which significantly puts pressure on the groundwater resources. The study is suggested to change the cropping pattern and moving to two crops combination (rice and wheat) to crop diversification. A community-based approach is essential for efficient groundwater resource use in a water-scarce environment via effective institutional arrangements.
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Data availability
The datasets generated during the current study are available from the corresponding author on reasonable request.
References
Adiseshu, K. (2008). Role of water markets in groundwater management in Andhra Pradesh and Orissa. In S. M. Jharwal & R. S. Deshpande (Eds.), Glimpses of Indian agriculture: Macro and micro aspects (Vol. 2, pp. 229–236). Academic Foundation.
Aghaie, V., Alizadeh, H., & Afshar, A. (2020). Agent-based hydro-economic modelling for analysis of groundwater-based irrigation water market mechanisms. Agricultural Water Management, 234, 106140.
Banerji, A., Meenakshi, J. V., & Khanna, G. (2012). Social contracts, markets, and efficiency: Groundwater irrigation in North India. Journal of Development Economics, 98(2), 228–237.
Baskaran, A., & Neelakanda, K. A. (2010). Impact of water resources protection on local ground water market. Journal Water Resources and Protection, 2(8), 727–730. https://doi.org/10.4236/jwarp.2010.28083
Bauer, C. J. (1997). Bringing water markets down to earth: The political economy of water rights in Chile, 1976–95. World Development, 25(5), 639–656. https://doi.org/10.1016/S0305-750X(96)00128-3
Bjornlund, H., & McKay, J. (2002). Aspects for water markets for developing countries: Experiences from Australia, Chile, and the US. Environment and Development Economics, 7(4), 769–795. https://doi.org/10.1017/S1355770X02000463
Census of India. (2011). Haryana district census handbook: Karnal village and town directory. Series-07, Part 12-ADirectorate of Census Operations.
Central Ground Water Board (CGWB). (2013). Groundwater information booklet of Karnal district, Haryana. Ministry of Water Resources.
Central Ground Water Board (CGWB). (2017a). Dynamic groundwater resources of India. Faridabad: Ministry of Water Resources, River Development, and Ganga Rejuvenation. http://cgwb.gov.in/Documents/Dynamic%20GWRE-2013.pdf
Central Ground Water Board (CGWB). (2017b). Aquifer mapping and management plan Karnal district, Haryana. Ministry of Water Resources, River Development, and Ganga Rejuvenation.
Department of Economic and Statistical Analysis, Haryana. (2016). Haryana statistical abstract, 2014–15. file:///C:/Users/Dell/Downloads/Statistical%20Abstract%20of%20Haryana%202014–15%20(1).pdf
Dhaarna, & Devadas, V. (2022a). System analysis of water-energy-food nexus of Bundelkhand region, India. Blue-Green Systems, 4(2), 170–183. https://doi.org/10.2166/bgs.2022
Dhaarna, & Devadas, V. (2022b). Water resource management by using system dynamics in Ahmedabad city. In K. S. Sridhar & G. Mavrotas (Eds.), Urbanization in the global south: Perspectives and challenges (Vol. 1, pp. 147–166). Routledge.
Dhaarna, & Devadas, V. (2023). Stakeholder opinion-based development index (SODI): An empirical study of people’s perspective in the purview of water-energy-food nexus. Environment, Development and Sustainability. https://doi.org/10.1007/s10668-023-03065-
Dubash, N. K. (2000). Ecologically and socially embedded exchange, Gujarat model of water markets. Economic and Political Weekly, 35(16), 1376–1385.
Dubash, N. K. (2002). Tube well capitalism, groundwater development, and Agrarian change in Gujarat. Oxford University Press.
Easter, K. W., Dinar, A., & Rosegrant, M. W. (1998). Water markets: Transaction costs and institutional options. In K. W. Easter, M. W. Rosegrant, & A. Dinar (Eds.), Markets for water potential and performance. Natural resource management and policy (Vol. 15, pp. 1–18). Springer. https://doi.org/10.1007/978-0-585-32088-5_1#citeas
Easter, W. K., & Huang, Q. (2013). Water markets: How do we expand their use? In William & Q. Huang (Eds.), Water markets for the 21st century: What have we learned? (pp. 1–9). Springer.
Easter, W. K., Rosegrant, M. W., & Dinar, A. (1999). Formal and informal markets for water: Institutions, performance, and constraints. The World Bank Research Observer, 14(1), 99–116.
Fujitha, K., & Hossain, F. (1995). Role of the groundwater market in agricultural development and income distribution: A case study in a Northwest Bangladesh village. The Developing Economies, 33(4), 460–463.
Gautam, R., & Sangwan, B. (2021a). Groundwater depletion and agriculture profitability in Haryana: A case study of Karnal district. International Journal of Aquatic Science, 12(3), 1943–1959.
Gautam, R., & Sangwan, B. (2021b). A geographical analysis of changing cropping pattern in Haryana. Turkish Online Journal of Qualitative Inquiry (TOJQI), 12(9), 3301–3332.
Janakarajan, S. (1993). Economic and social implications of irrigation: Some evidence from South India. Indian Journal of Agricultural Economics, 48(1), 65–75. https://doi.org/10.22004/ag.econ.274859
Kasana, A., & Singh, O. (2017). Groundwater irrigation economy of Haryana: A glimpse into spread, extent, and issues. Journal of Rural Development, 36(4), 531–555. https://doi.org/10.25175/jrd/2017/v36/i4/120624
Kumar, J. (2022). Characteristics and significance of groundwater markets for irrigation in Haryana: A comparative study of different groundwater availability regimes. Punjab Geographers, 18, 98–108.
Manjunatha, S., Dalwai, M., & Sukhaye, R. (2016). A remote sensing and gis based evaluation of groundwater prospects of Karanja river basin, Bidar district, Karnataka, India. International Journal of Geomatics and Geosciences, 6(4), 1782–1795.
Manonmani, S., & Malathi, N. (2012). Functioning of groundwater market for irrigation—A study in Cuddalore district, Tamil Nadu. Language in India, 12, 396–404.
Meinzen-Dick, R. S. (1994). Private tubewell development and groundwater markets in Pakistan: A district-level analysis. The Pakistan Development Review, 33(4), 857–869.
Meinzen-Dick, R. S. (1998). Groundwater markets in Pakistan: Institutional development and productivity impacts. In K. W. Easter, M. W. Rosegrant, & A. Dinar (Eds.), Markets for water: Natural resource management and policy (Vol. 15, pp. 207–222). Springer.
Mukherjee, S., & Biswas, D. (2016). An enquiry into equity impact of groundwater markets in the context of subsidized energy pricing: A case study. IIM Kozhikode Society and Management, 5(1), 63–73. https://doi.org/10.1177/2277975215618329
Mukherji, A. (2004). Groundwater markets in Ganga–Meghna-–rahmaputra basin: Evidence and theory. Economic and Political Weekly, 39(31), 3514–3520.
Mukherji, A. (2007a). Implications of alternative institutional arrangements in groundwater sharing: Evidence from West Bengal. Economic and Political Weekly, 42(26), 2543–2564. https://doi.org/10.2307/4419759
Mukherji, A. (2007b). The energy nexus and its impact on groundwater markets in eastern Indo-Gangetic basin: Evidence from West Bengal, India. Energy Policy, 35(12), 6413–6430.
Mukherji, A. (2008). Spatio-temporal analysis of markets for groundwater irrigation services in India: 1976–1977 to 1997–1998. Hydrogeology Journal, 16(6), 1077–1087. https://doi.org/10.1007/s10040-008-0287-0
Mukherji, A., & Shah, T. (2005). Socio-ecology of groundwater irrigation in South Asia: An overview of issues and evidence. In A. Sahuquillo, J. Capilla, L. Martinez-Cortina, & X. Sanchez-Vila (Eds.), Groundwater intensive use: Selected papers, SINEX, Valencia, Spain 10–14 December 2002 (pp. 53–78). A. A. Balkema Publishers.
Prasad, G. S. G. (2002). Water markets: Public resource and private appropriation. Economic and Political Weekly, 37(1), 28–29.
Raffensperger, J. F., & Milke, M. W. (2017). Smart markets for water resources: A manual for implementation, 12. Springer.
Razzaq, A., Qing, P., Naseer, M. A. R., Abid, M., Anwar, W., & Javed, I. (2019). Can the informal groundwater markets improve water use efficiency and equity? Evidence from a semi-arid region of Pakistan. Science of the Total Environment, 666, 849–857. https://doi.org/10.1016/j.scitotenv.2019.02.266
Sarkar, A. (2009). Structural changes in irrigation systems and access to groundwater resources: A case study of Punjab. Dissertation, Jawaharlal Nehru University, New Delhi.
Sarkar, A. (2011). Socio-economic implication of depleting groundwater resource in Punjab: A comparative analysis of different irrigation systems. Economic and Political Weekly, 46(7), 59–66.
Satyasi, K. J. S., Kumar, P., & Mruthyunjaya. (1997). Terms of transactions in groundwater markets: A study in Anantapur district of Andhra Pradesh. Indian Journal of Agricultural Economics, 52(4), 751–760. https://doi.org/10.22004/ag.econ.297572
Shah, T. (1991). Water markets and irrigation development in India. Indian Journal of Agricultural Economics, 46(3), 335–348. https://doi.org/10.22004/ag.econ.272602
Shah, T. (1993). Groundwater markets and irrigation development: Political economy and practical policy. Oxford University Press.
Shah, T. (1998). Water against poverty: Livelihood-oriented water resource management. Water Nepal, 6(1), 117–143.
Shah, T. (2022). Groundwater markets and agricultural development: A south Asian overview. Mumbai: Department of Economic Analysis and Research, National Bank for Agriculture and Rural Development (NABARD), 41. https://www.nabard.org/hindi/auth/writereaddata/tender/1310224208paper-8-groundwater-markets-dr-tushhar-shah.pdf
Shah, T., & Ballabh, V. (1997). Water markets in north Bihar: Six village studies in Muzaffarpur district. Economic and Political Weekly, 32(52), A183–A190.
Shah, T., & Raju, K. V. (1987). Working of groundwater markets in Andhra Pradesh and Gujarat: Results of two village studies. Economic and Political Weekly, 22(6), 36–47.
Shah, T., & Raju, K. V. (1988). Groundwater markets and small farmers development. Economic and Political Weekly, 23(13), A23–A28.
Shankar, K. (1992). Water markets in eastern Uttar Pradesh. Economic and Political Weekly, 27(18), 931–934.
Sharghi, S., & Kerachian, R. (2022). An uncertainty-based smart market model for groundwater management. Water Supply, 22(3), 3352–3373. https://doi.org/10.2166/ws.2021.400
Sharma, P., & Sharma, R. C. (2004). Groundwater markets across climatic zones: A comparative study of arid and semi-arid zones of Rajasthan. Indian Journal of Agricultural Economics, 59(1), 138–150. https://doi.org/10.22004/ag.econ.204361
Singh, D. (2002). Groundwater markets in fragile environments: Key issues in sustainability. Indian Journal of Agricultural Economics, 57(2), 180–196. https://doi.org/10.22004/ag.econ.297876
Singh, D. (2007). Who gains and who loses in the game of groundwater markets in water—Scarce regions. Agricultural Economics Research Review, 20(2), 345–360. https://doi.org/10.22004/ag.econ.47345
Singh, D. R. (1998). Efficiency and equity implications of groundwater markets on farm economy in western Uttar Pradesh. Unpublished PhD thesis, Division of Agricultural Economics, IARI, New Delhi.
Singh, D. R., & Singh, R. P. (2006). Structure determinants and efficiency of groundwater markets in western Uttar Pradesh. Agricultural Economics Research Review, 19(1), 129–144.
Singh, O., & Amrita. (2017). Management of groundwater resources for sustainable agriculture in Haryana. Transactions, 39(1), 133–150.
Singh, O., Kasana, A., & Sharma, T. (2020). Groundwater irrigation market patterns and practices over an agriculturally developed province of north-west India. GeoJournal, Springer Nature, 85(1), 703–729. https://doi.org/10.1007/s10708-019-09992-2
Singh, V. K., Rajanna, G. A., Paramesha, V., & Upadhyay, P. K. (2022). Agricultural water footprint and precision management. In P. Kumar, A. K. Pandey, S. K. Singh, S. S. Singh, & V. K. Singh (Eds.), Sustainable agriculture systems and technologies, section 3 (pp. 251–266). Wiley. https://doi.org/10.1002/9781119808565.ch11
Thobanl, M. (1997). Formal water markets: Why, when, and how to introduce tradable water rights. The World Bank Research Observer, 12(2), 161–179.
Venkatesh, M., Pouchepparadjou, A., Swaminathan, N., & Ayyob, K. C. (2022). An economic analysis of groundwater markets and water use efficiency in hard rock area of Hosur Union Krishnagiri district in Tamil Nadu. Journal of Applied and Natural Science, 14(1), 199–205. https://doi.org/10.31018/jans.v14iSI.3609
Verma, H. M., & Bhaiya, S. R. (2008). Role of water markets in groundwater management in Rajasthan. In S. M. Jharwal & R. S. Deshpande (Eds.), Glimpses of Indian agriculture: Macro and micro aspects (Vol. 2, pp. 237–246). Academic Foundation.
Wang, X., Huang, K., Yu, Y., Hu, T., & Xu, T. (2016). An input–output structural decomposition analysis of changes in sectoral water footprint in China. Ecological Indicators, 69(26), 34. https://doi.org/10.1016/j.ecolind.2016.03.029
Zhang, L. J., Wang, J., Huang, J., & Rozelle, S. (2008). Development of groundwater markets in China: A glimpse into progress to date. World Development, 36(4), 706–726. https://doi.org/10.1016/j.worlddev.2007.04.012
Acknowledgements
This paper is a part of my Ph.D. thesis submitted to the Maharishi Dayanand University, Rohtak, Haryana, India. I would like to thank Professor Binu Sangwan for supervising this research work. The author is thankful to all villager respondents for their valuable information.
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Gautam, R. Groundwater Markets structure and its evolution: a study of Karnal District, Haryana, India. Environ Dev Sustain (2023). https://doi.org/10.1007/s10668-023-03423-6
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DOI: https://doi.org/10.1007/s10668-023-03423-6