Groundwater Governance in Pakistan: From Colossal Development to Neglected Management

MDPI AG - Tập 12 Số 11 - Trang 3017
Asad Sarwar Qureshi1
1International Center for Biosaline Agriculture (ICBA), P.O. Box, 14660 Dubai, UAE

Tóm tắt

Groundwater is playing an essential role in expanding irrigated agriculture in many parts of the world. Pakistan is the third-largest user of groundwater for irrigation in the world. The surface water supplies are sufficient to irrigate 27% of the area, whereas the remaining 73% is directly or indirectly irrigated using groundwater. The Punjab province uses more than 90% of the total groundwater abstraction. Currently, 1.2 million private tubewells are working in the country, out of which 85% are in Punjab, 6.4% are in Sindh, 3.8% are in Khyber-Pakhtunkhwa, and 4.8% are in Baluchistan. The total groundwater extraction in Pakistan is about 60 billion m3. The access to groundwater has helped farmers in securing food for the increasing population. However, unchecked groundwater exploitation has created severe environmental problems. These include rapidly falling groundwater levels in the irrigated areas and increased soil salinization problems. The groundwater levels in more than 50% of the irrigated areas of Punjab have dropped below 6 m, resulting in increased pumping cost and degraded groundwater quality. Despite hectic efforts, about 21% of the irrigated area is affected by different levels of salinity. The country has introduced numerous laws and regulations for the sustainable use and management of groundwater resources, but the success has so far been limited. Besides less respect for the law, unavailability of needed data and information, lack of political will and institutional arrangements are the primary reasons for poor groundwater management. Pakistan needs to revisit its strategies to make them adaptable to local conditions. An integrated water resource management approach that brings together relevant government departments, political leadership, knowledge institutions, and other stakeholders could be an attractive option.

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Tài liệu tham khảo

Siebert, 2015, A global data set of the extent of irrigated land from 1900 to 2005, Hydrol. Earth Syst. Sci., 19, 1521, 10.5194/hess-19-1521-2015

Subhadra, 2015, Water: Halt India’s groundwater loss, Nature, 521, 289, 10.1038/521289d

Suhag, R. (2016). Overview of Groundwater in India, PRS Legislative Research.

Qureshi, 2015, Improving food security and livelihood resilience through groundwater management in the Indus Basin of Pakistan, Glob. Adv. Res. J. Agric. Sci., 4, 687

Chindarkar, N., and Grafton, R.Q. (2019). India’s depleting groundwater: When science meets policy. Asia Pac. Policy Stud., 1–17.

Mukherjee, A., Sahab, D., Harvey, C.F., Taylor, R.G., Ahmed, K.M., and Bhanja, S.N. (2014). Groundwater systems of the Indian sub-continent. J. Hydrol. Reg. Stud.

Siebert, 2010, Groundwater Use for Irrigation: A Global Inventory, Hydrol. Earth Syst. Sci., 3, 3977

Shah, T. (2014). Groundwater Governance and Irrigated Agriculture, Global Water Partnership Technical Committee (TEC). Tec Background Papers No. 19.

Zaveri, E., Grogan, D.S., Fisher-Vanden, K., Frolking, S., Lammers, R.B., Wrenn, D.H., and Nicholas, R.E. (2016). Invisible water, visible impact: Groundwater use and Indian agriculture under climate change. Environ. Res. Lett, 11.

Basharat, 2015, Groundwater modelling for need assessment of command scale conjunctive water use for addressing the exacerbating irrigation cost inequities in LBDC irrigation system, Punjab, Pakistan, Sustain. Water Resour. Manag., 1, 41, 10.1007/s40899-015-0002-y

Khan, H.F., Yang, E.Y., Ringler, C., Wi, S., Cheema, M.J.M., and Basharat, M. (2016). Guiding Groundwater Policy in the Indus Basin of Pakistan Using a Physically Based Groundwater Model. J. Water Resour. Plann. Manag.

Bhatti, M.A., and Akhtar, M.J.U. (2002, January 14–16). Increasing irrigated agriculture productivity for poverty reduction in Pakistan. Proceedings of the Second South Asia Water Forum, Islamabad, Pakistan.

Bhutta, 2007, One hundred years of waterlogging and salinity control in the Indus valley, Pakistan: A historical review, Irrig. Drain., 56, 581, 10.1002/ird.333

Giordano, 2009, Global Groundwater? Issues and Solutions, Annu. Rev. Environ. Resour., 1, 153, 10.1146/annurev.environ.030308.100251

Sobia, A., Sasaki, N., Jourdain, D., and Tsusaka, T.W. (2018). Levels of Technical, Allocative, and Groundwater Use Efficiency and the Factors Affecting the Allocative Efficiency of Wheat Farmers in Pakistan. Sustainability, 10.

Government of Pakistan (2019). Pakistan Economic Survey.

Yu, W., Yang, Y.C.E., Savitsky, A., Alford, D., Brown, C., Wescot, J., Debowicz, D., and Robinson, S. (2013). The Indus Basin of Pakistan: The Impacts of Climate Risks on Water and Agriculture, World Bank.

Basharat, M., Hassan, D., Bajkani, A., and Sultan, S. (2014). Surface Water and Groundwater Nexus: Groundwater Management Options for Indus Basin Irrigation System.

Bakshi, G., and Trivedi, S. (2011). The Indus Equation, Strategic Forsight Group.

Qureshi, A., and Hasnain, A. (2014, January 26). Situation analysis of the water resources of Lahore: Establishing a case for water stewardship. Proceedings of the WWF-Pakistan Report, Lahore, Pakistan.

World Bank (2007). Punjab Groundwater Policy—Mission Report, World Bank. Available online: www.worldbank.org/gwmate.

World Bank (2008). World Development Report, The World Bank Group.

Mukherjee, A. (2018). Challenges and opportunities for groundwater management in Pakistan. Groundwater of South Asia, Springer.

Tariq, M.A., van de Giesen, N., Janjua, S., Rahman, M.S., and Farooq, R. (2020). An Engineering Perspective of Water Sharing Issues in Pakistan. Water, 12.

Basharat, M. (2015). Groundwater Management in Indus Plain and Integrated Water Resources Management Approach.

Qureshi, 2014, Reducing Carbon Emissions through Improved Irrigation Management: A case study from Pakistan, Irrig. Drain., 63, 132, 10.1002/ird.1795

Qureshi, 2010, Sustainable groundwater management in Pakistan: Challenges and opportunities, Irrig. Drain., 59, 107, 10.1002/ird.455

Leghari, 2012, The Indus Basin in the framework of current and future water resources management, Hydrol. Earth Syst. Sci. Discuss., 8, 2263

Giordano, M., and Villholth, K.G. (2007). The Groundwater Economy of South-Asia: An Assessment of Size, Significance and Socio-Ecological Impacts, CABI Publications. The agricultural groundwater revolution: Opportunities and threat to development.

Manjunatha, 2011, Impact of groundwater markets in India on water use efficiency: A data envelopment analysis approach, J. Environ. Manag., 92, 2924, 10.1016/j.jenvman.2011.07.001

Beg, A., and Lone, M.I. (1992, January 8–15). Trends of Changes in Groundwater Quality of SCARP-I. Proceedings of the 5th ICID-IWASRI Fifth International Drainage Workshop, Lahore, Pakistan.

Ahmad, S. (2009). Water Availability and Future Water Requirements, Paper Presented at the National Seminar on “Water Conservation, Present Situation and Future Strategy” Organized by Ministry of Water and Power.

Latif, 2009, Performance assessment of irrigation management transfer from Government to farmer-managed irrigation system: A case study, Irrig. Drain., 58, 275, 10.1002/ird.424

Latif, 2003, Irrigation Management turnover and option for improved utilization of limited water resources in Pakistan, Irrig. Drain., 52, 261, 10.1002/ird.93

Hassan, M., Starkloff, R., and Nizamedinkhodjayeva, N. (2004). IWMI Research Report No. 81, Inadequacies in the Water Reforms in the Kyrgyz Republic: An Institutional Analysis.

Khan, 2013, Heavy metal status of soil and vegetables grown on peri-urban area of Lahore district, Soil Environ., 32, 49

WAPDA (2007). Waterlogging, Salinity and Drainage Situation.

Halcrow-ACE (2003). Exploitation and Regulation of Fresh Groundwater—Main Report, ACE-Halcrow JV Consultants, Gulberg III.

Venot, 2008, Groundwater depletion in the Jordan highlands: Can pricing policies regulate irrigation water use?, Water Resour. Manag., 22, 1925, 10.1007/s11269-008-9260-x

Wang, 2009, The evolution of China’s groundwater governance: Productivity, equity and the environment, Q. J. Eng. Geol. Hydrogeol., 25, 141

Oweis, T. (2018). Managing surface water for irrigation. Water Management for Sustainable Agriculture, Burleigh Dodds Science Publishing Limited.

Zoumides, 2009, Irrigation water pricing in southern Europe and Cyprus: The effects of the EU Common Agricultural Policy and the Water Framework Directive, Cyprus Econ. Policy Rev., 3, 99

Qureshi, 2009, Effect of electricity pricing policies on groundwater management in Pakistan, Pak. J. Water Resour., 7, 1

Punjab Bureau of Statistics (2019). Punjab Development Statistics.

Badiani, R., and Jessoe, K. (2017, May 18). The Impact of Electricity Subsidies on Groundwater Ex- traction and Agricultural Production. Available online: http://economics.ucdavis.edu/events/papers/Jessoe51.pdf.

PPSGDP (2000). Legal and Regulatory Framework for Punjab Province, Punjab Private Sector Groundwater Development Project (PPSGDP). Technical Report No. 45.

Shah, 2003, Sustaining Asia’s Groundwater Boom: An overview of issues and evidence, Nat. Resour. Forum, 27, 130, 10.1111/1477-8947.00048

Khan, 2008, Hydrogeologic Assessment of Escalating Groundwater Exploitation in the Indus Basin, Pakistan, Hydrogeol. J., 8, 1635, 10.1007/s10040-008-0336-8

Qureshi, 2008, Managing salinity and waterlogging in the Indus Basin of Pakistan, Agric. Water Manag., 95, 1, 10.1016/j.agwat.2007.09.014

Yang, 2014, Toward quantitative analysis of water-energy-urban-climate nexus for urban adaptation planning, Curr. Opin. Chem. Eng., 5, 22, 10.1016/j.coche.2014.03.006

Hernández-Mora, N., Martinez, L., Llamas, R.M., and Custodio, E. (2010). Groundwater in the Southern Member States of the European Union: An Assessment of Current Knowledge and Future Prospects, European Academies Science Advisory Council. Available online: http://www.easac.eu/fileadmin/PDF_s/reports_statements/Spain_Goundwater_country_report.

Garrido, 2006, Groundwater irrigation and its implications for water policy in semiarid countries: The Spanish experience, Hydrogeol. J., 14, 340, 10.1007/s10040-005-0006-z

Hobbs, 2003, Resource-conserving technologies for wheat in the rice-wheat system, Improving Productivity and Sustainability of Rice-Wheat Systems: Issues and Impact, Volume 65, 149

Mollah, 2009, Bed planting—a new crop establishment method for wheat in rice-wheat cropping system, J. Agric. Rural. Dev., 7, 23

Bouman, 2007, Rice and water, Adv. Agron., 96, 187, 10.1016/S0065-2113(04)92004-4

Lohmar, B., Wang, J., Rozelle, S., Huang, J., and Dawe, D. (2003). China’s Agricultural Policy Reforms: Increassing Investment, Resolving Conflicts and Revising Incentives, Agricultural Information Bulletin # 782.

Chebaane, 2004, Participatory groundwater management in Jordan: Development and analysis of options, Hydrogeol. J., 12, 14, 10.1007/s10040-003-0313-1

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MDPI AG

Tập 12 Số 11

3017

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