Assessment of Seven Conventional Natural Drinking Water Sources in the Periphery of Chamba Town of Himachal Pradesh in India
Chamba town of Himachal Pradesh in India is renowned for its conventional natural underground drains, springs and well water sources known as Panihar, Nara and Boury in the local dialect. These are the major traditional freshwater sources for human consumption in the valley. Water is one of the most essential natural sources required for the survival of human beings. But the quality of water in these natural sources is deteriorating day by day due to the universal impact of climate change and the increasing pollutant load of unplanned human activities. The deterioration of natural water sources is a major concern to human well-being all around the world. Therefore, a study was designed for the assessment of the quality of drinking water from randomly selected seven major traditional water sources in the periphery of historic Chamba town. This paper consists of the historic importance of these water sources, the perception and perspectives of their users along with qualitative analysis of total dissolved solids, total hardness and metal salts. The qualitative and physiochemical analysis confirms that the quality of water in all these sources is still within the safe limits of drinking water with limited variation in range but requires special attention for their safe guard.
Annan, K. (2005). Water is essential for life. General Assembly Report, (A/60/158).
Bandy, J.T. (1984). Water characteristics. J. Wat. Poll. Cont. Fed., 56(6): 544-548.
Bhargava, D.S. (1977). Water quality in three typical rivers in U.P.-Ganga, Yamuna and Kali. Ph.D. Thesis, IIT Kanpur.
Dev, R. and M. Bali (2018). Evaluation of groundwater quality and its suitability for drinking and agricultural use in district Kangra of Himachal Pradesh, India. Journal of Saudi Society of Agricultural Sciences, 18(4): 462-468.
Dugan, R. (1972). Biochemical ecology of water pollution. Plenum Publishing Co. Ltd. New York.
Dwivedi, A.K. (2017). Researches in water pollution a review. International Research Journal of Natural and Applied Sciences. 4(1): 2349-4077
Edwards, C.J., Hudson, P.L., Duffy, W.G. Nepszy, S.J., Mc Nabb, C.D., Haas, R.C., Liston, C.R., Manny, B.A. and W.D.N. Busch (1989). Hydrobiological, morphometrical, and biological characteristics of the connecting rivers of the International Great Lakes: A review. In: D.P. Dodge Ced (.). Proc. International. Large Rivers Symp., Can. J. Fish. Aquat. Sci., 106: 240-264.
Ganpati, S.V. and P.I. Chacko (1951). An investigation of the river Godavari and the effects of the paper mill pollution at Rajahmundry. Proc. Indo-Pac. Fish Counc. Madras Meeting, Sec: II and III. 70-74.
Federal Environment Protection Agency (FEPA) (1998). Report of the Committee on Water Quality Criteria, Federal Water Pollution Administration. pp. 9-10.
Gupta, V.S. (2001). Environmental protection the battle for servival. Emp. News. XXVI (9): 1-3.
Gupta, P., Sharma, V.K. and B. Rajpoot (2018). Management of water resources among Gaddi Community of Chamba, Himachal Pradesh. J. Nat. Prod. Resour, 4(1): 174-178.
Hakim, M.Y.H. (1984). Impact of pollution on the ecosystem of Burhi Gandak fiver near Samastipur town, North Bihar. In: B.D. Tripathi (Eds.). River Ecology and Human Health, NECA. Varanasi. 83-88.
Khatri, N. and S. Tyagi (2015). Influences of natural and anthropogenic factors on surface and groundwater quality in rural and urban areas. Frontiers in Life Science, 8(1): 23-39.
Kumar, S.K., Rammohan, V., Sahayam, J.D. and M. Jeevanandam (2009). Assessment of groundwater quality and hydrogeochemistry of Manimuktha River basin, Tamil Nadu, India. Environ. Monit. Assess, 159: 341-351
Leonard, A.W. Hyne, R.V., Lin, R.P., Leigh, K.A., Le, J. and R. Beckett (2001). Fate and toxicity of Endosulphan in Namoi River water and bottom sediment. J. Environ. Qual. 30(3): 750-759.
Meyer, J.L., Paul, M.J. and W.K. Taulbee (2005). Stream ecosystem function in urbanizing landscapes. J N Am Benthol Soc., 24: 602-612.
Mistra, K. (1993). Ecology and Management of fresh water pond of Varanasi, Ph.D. Thesis, Banaras Hindu University, Varanasi, India.
Mitra, A.K. (1982). Chemical characteristics of surface water at a selected ganging station in the river Godavari, Krishna and Tungbhadra. Indian J. Environ. Hith, 24(2):165-179.
Olaniya, M.S., Saxena, K.L. and H.C. Sharma (1976). Pollution studies of Chambal River and its tributaries at Kota. Indian J. Environ. Hlth, 18(3): 219-226.
Khatri N. and S. Tyagi (2015) Influences of natural and anthropogenic factors on surface and groundwater quality in rural and urban areas. Frontiers in Life Science, 8(1): 23-39.
Panesar, R.S., Singh, J.S. and B.D. Kansal (1985). Chemical composition of waste waters of Amritsar city. Ind. J. Ecol., 12(1): 12-16.
Postel, S. (1997). Facing Water Scarcity. New York, Norton, pp. 17-191.
Rafique, A., Awan, M.A., Wasti, A., Qazi, I.A. and M. Arshad (2013). Removal of fluoride from drinking water using modified immobilized activated alumina. J Chem Sci, 2013: 1-7.
Shrestha, S. and F. Kazama (2007). Assessment of surface water quality using a multivariate statistical technique: A case study of the Fuji river basin, Japan. Environ Model Software, 22: 464-475.
Sliva, L. and D.D. Williams (2001). Buffer zone versus whole catchment approaches to studying land use impact on river water quality. Water Res., 35: 3462-3472.
Thakur, N., Rishi, M., Sharma, D.A. and T. Keesari (2018). Quality of water in Kullu Valley in Himachal Himalayas, India: Perspective and prognosis. Applied Water Science, 8: 20-32.
Thanas, K.V., Hurst Mathiessen, P. and D. Sheahan (2001). Toxicity characterization of organic contaminants in storm waters from an agricultural head water stream in south East England. Wat. Res., 35(10): 2411-2416.
Umar, A. (2000). Effect of water on health. Emp. News. XXV, (22): 1-2.
Valdes, D., Dupont, J.P., Laignel, B., Ogier, S., Leboulanger, T. and B.J. Mahler (2007). A spatial analysis of structural controls on Karst groundwater geochemistry at a regional scale. J Hydrol, 340: 244-255.
Wallage, Z.E., Holden, J. and A.T. McDonald (2006). Drain blocking is an effective treatment for reducing dissolved organic carbon loss and water colour in peatlands. Sci Total Environ, 367: 811-821.
Wang, Y. and J.J. Jiao (2012). Origin of groundwater salinity and hydro geochemical processes in the confined quaternary aquifer of the Pearl River Delta China. J Hydrol, 438-439: 112-124.
WHO (1992). Our planet, our health. Report of the WHO Commission on Health and Environment. Geneva: World Health Organization.
Withers, P.J.A. and E.I. Lord (2002). Agricultural nutrient inputs to rivers and groundwaters in the UK: Policy, environmental management and research needs. Sci Total Environ., 282: 9-24.