Assessment of Aquifer Vulnerability to Groundwater Pollution by Multi-criteria Analysis in and around East Calcutta Wetlands, West Bengal, India

© 2009 by the Author(s). This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution -Noncommercial 4.0 International License (CC-by the license) ( https://creativecommons.org/licenses/by-nc/4.0/ )

Download PDF

Cite

XML

Abstract

The area lies between Hugli river in the northwest and Bidyadhari river in the east and includes the East Calcutta Wetlands, a Ramsar site. The area is flat in nature and a part of the lower deltaic plain of the BhagirathiGanga river system. The sub-surface geology of the area is completely blanketed by the Quaternary fluviatile sediments comprising a succession of clay, silty clay, sand and sand mixed with occasional gravel. The Quaternary confined aquifer is made up of moderately well sorted sand and reflects fluviatile environment of deposition. Overlay analysis in GIS platform using multiple criteria such as height of piezometric surface above the base of top confining layer, hydraulic conductivity of the aquifer, groundwater velocity, thickness of top confining layer and water quality index have been utilized to understand vulnerability of the aquifer to groundwater pollution. The analysis indicates that 71% of the aquifer of the study area shows high to very high vulnerability to groundwater pollution. The aquifer below the sewage fed ponds and agricultural land shows high vulnerability to pollution. In these areas groundwater abstraction should be controlled to minimize surface water and groundwater interaction. Sensitivity analysis of the aquifer vulnerability assessment with the water quality indicates that in 70% of the total area vulnerability classes have matched with the present water quality distribution of the area. Artificial recharge to aquifer through roof top rainwater harvesting should be made mandatory for high-rise buildings and industries present in and around the wetlands.

Keywords

East Calcutta wetlands

land use

piezometeric surface

multi-criteria analysis

aquifer vulnerability

groundwater quality

Conflict of interest

The authors declare they have no competing interests.

References

Chaterji, G.C., Deshmukh, D.S., Sinha, S.C. and B.N. Niyogi (1959). Some recent observations on the depth of sediment in the Ganga valley below Varanasi. Ganga Valley: A Symposium. ONGC, Dehra Dun.

Chaterji, G.C., Biswas, A.B., Basu, S. and B.N. Niyogi (1964). Geology and groundwater resources of the Greater Calcutta Metropolitan Area, West Bengal. Bulletin Geological Survey of India, B21: 1-150.

Chatterjee, S., Chattopadhyay, B. and S.K. Mukhopadhyay (2006). Trace metal distribution in tissues of Cichlids (Oreochromis Niloticus and O. Mossambicus) collected from wastewater-fed fishponds in East Calcutta Wetlands, a Ramsar site. Acta Ichthyological et Piscatoria, 36(2): 119-125.

Chattopadhyay, B., Chatterjee, A. and S.K. Mukhopadhyay (2002). Bioaccumulation of metals in the East Calcutta wetland ecosystem. Aquatic Ecosystem Health and Management, 5(2): 191-203.

Eastman, J.R., Jin, W., Kyemi, P.A.K. and J. Toledano (1995). Raster procedure for multi-criteria/multi-objective decisions. Photogrammetric Engineering and Remote Sensing, 61: 539-547.

Eastman, J.R. (1996). Multi-criteria evaluation and GIS, Geographical Information Systems, (eds.) P.A. Longley, M.F. Goodchild, D.J. Magurie and D.W. Rhind, 2nd edition, vol. 1, John Wiley and Sons, NY, pp. 493-502.

Ghosh, D. (1983). Sewage Treatment Fisheries in East Calcutta Wetlands. Report to the Department of Fisheries, Government of West Bengal, Calcutta, India.

Ghosh, D. (1999). Wastewater Utilisation in East Calcutta Wetlands. UWEP Occasional Paper.

Masch, F.D. and K.J. Denny (1966). Grain size distribution and its effect on permeability of unconsolidated sand. Water Resources Research, 2: 665-672.

Mishra, P.C. and R.K. Patel (2001). Study of the pollution load in the drinking water of Rairangpur, a small tribal dominated town of North Orissa. Indian J. Environ. and Ecoplan, 5(2): 293-298.

Naik, S. and K.M. Purohit (2001). Studies on water quality of river Brahmani in Sundargarh district, Orissa. Indian J. Environ. and Ecoplan, 5(2): 397-402.

Sahu, Paulami and P.K. Sikdar (2008). Hydrochemical framework of the aquifer in and around East Calcutta Wetlands, West Bengal, India. Environmental Geology, 55(4): 823-835.

Sarkar, B.C. and B.S. Deota (2000). A geographic information system approach to groundwater potential of shamri microwatershed in the Shimla Taluk, Himachal Pradesh. Unpub. Project Report submitted for NNRMS sponsored course on GIS; Technology and Applications. Geoinformatics Division, IIRS, NRSA, Dehradun. 24 p.

Sikdar, P.K. (2000). Geology of the Quaternary Aquifers of the Twin City of Calcutta-Howrah. Journal Geological Society of India, 56: 169-181.

Sikdar, P.K. and P. Bhattacharya (2003). Groundwater risk analysis and development plan of Calcutta. In: Environmental issues for the 21st Century, (ed.) S.P. Das Gupta, Mittal Publishers, New Delhi, pp. 83-119.

Sikdar, P.K., Mondal, S., Saha, L., Sarkar, S.S. and S. Banerjee (2002). Environmental impact assessment of a proposed info-tech complex in East Calcutta wetlands. The Environmentalist, 22(4): 241-260.

Singh, D.F. (1992). Studies on the water quality index of some major rivers of Pune, Maharashtra. Proc. Acad. Environ. Bio., 1(1): 61-66.

Subba Rao, N. (1997). Studies on water quality index in hard rock terrain of Guntur district, Andhra Pradesh, India. National Seminar on Hydrology of Precambrian Terrains and hard rock areas, pp. 129-134.

Tiwari, T.N. and M.A. Mishra (1985). A preliminary assignment of water quality index of major Indian rivers. Indian J. Environ. Proc., 5: 276-279.

Voogd, H. (1983). Multi-ctiteria Evaluation for Urban and Regional Planning. Pion, London.

Vrba, J. and A. Zaporatec (eds.) (1994). Guidebook on Mapping Ground Water Vulnerability. IAH Int.Contribution for Hydrogeology, vol. 16/94, Heise, Hannover, 131 p.

Zhang, R., Hamerlinck, J.D., Gloss, S.P. and L. Munn (1996). Determination of Nonpoint-Source Pollution Using GIS and Numerical Models. Journal of Environmental Quality, 25(3): 411-417.

Previous article in this issue

Next article in this issue

Asian Journal of Water, Environment and Pollution, Electronic ISSN: 1875-8568 Print ISSN: 0972-9860, Published by AccScience Publishing