Open Access

Geochemical Studies of Ground Water at the Eastern Side Dindigul Rock Fort Due To The Impact Of Sewage And Industrial Effluent

A.Pandia Rajan, chempandian@gmail.com
Department Of Chemistry, Gtn Arts College, Dindigul.TN, India
M.Velusamy, Department Of Chemistry, Gtn Arts College, Dindigul.TN, India R.Sukumar, Department Of Chemistry, Gtn Arts College, Dindigul.TN, India Ignatius Navis Karthika, P.S.N.A College Of Engineering And Technology, Dindigul, TN, India. M.S.Dheenadhayalan Department Of Chemistry, Gtn Arts College, Dindigul.TN, India


J. Environ. Nanotechnol., Volume 3, No 2 (2014) pp. 156-160

https://doi.org/10.13074/jent.2014.03.143075

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Abstract

The investigator has made an attempt to study the impact of untreated sewage water and industrial effluent in the groundwater sources from the houses located at the foot hills of Dindigul Rock fort. The pond has become a collection of sewage water from Dindigul town. About ten ponds in Dindigul town discharge through several canals and finally reach the Rock fort pond behind Taluk Office. As the result the water in the pond as well as the groundwater sources around different residential area like Kamarajapuram, reaches high degree of pollution. Ground water analysis at four different sites at four directions reveals that the water quality parameters are higher than the permitted level. As per CPHEEO standard specifically high turbidity, high TDS and higher Electrical conductivity values indicate that the water cannot be used for domestic purpose. The adjoining groundwater sources are mostly affected and the water becomes very salty with very high TDS. Hence the polluted water is suggested to water treatment using Reverse Osmosis System.

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Reference


Adhikari, S., Gupta, S. K. & Banerjee, S. K., Heavy metals content of city sewage and sludge. Journal of Indian Society of Soil Science, 41: 160-172(1993). 

Antil, R. S. & Narwal, R. P., Problems and prospects of utilization of sewer water in Haryana. In: Management of Organic Wastes for Crop Production, K.K. Kapoor, P.K. Sharma, S.S. Dudeja & B.S. Kundu, (Ed.), Department of Microbiology, CCS Haryana Agricultural University, Hisar, India, 159-168 (2005).

Arora, B.R., Azad, A.S., Singh, B. & Sekhon, G.S., Pollution potential of municipal waste waters of Ludhiana, Punjab. Indian Journal of Ecology, 12, 1-7 (1985). 

Bajwa, H., Water contamination is causing DNA mutation. The Indian Express, pp. 5, Feb. 16, 2008, Chandigarh edition, India (2008). 

Feigin, A.; Ravina, I. & Shalhevet, J., Irrigation with treated sewage effluent. Management for Environmental Protection. Advanced Series in Agricultural Sciences, Springer-Verla, 17, pp. 224 (1991)

Gupta, A. P., Narwal, R. P. & Antil, R. S., Sewer waters composition and their effect on soil properties. Bioresource Technology, 65, 171-173 (1998). 

http://dx.doi.org/10.1016/S0960-8524(98)00003-0

Gupta, S. K. & Mitra, A. In: Advances in Land Resource Management for 21st Century, Soil Conservation Society of India, New Delhi, 446-469 (2002).

Kharche, V.K.; Desai, V.N. & Pharande, A.L., Effect of sewage irrigation on soil properties, essential nutrients and pollutant element status of soils and plants in a vegetable growing area around Ahmednagar city in Maharashtra. Journal of Indian Society of Soil Science, 59: 177-184(2011). 

Narwal, R.P.; Singh, M. & Gupta, A.P., Effect of different sources of irrigation on the physico-chemical properties of soil. Indian Journal of Environment and Agriculture, 3: 27-34 (1988). 

Shiva, H. I., Adin, A., Fattal, B., Rawitz, E. & Yekutiel, P., Wastewater irrigation in developing countries, Health effects and technical solutions, World Bank Technical Report 51, pp 325, (1986). 

Tripathi, D. M., Tripathi, S. and Tripathi, B. D., Implications of secondary treated distillery effluent irrigation on soil cellulase and urease activities. Journal of Environment Protection, 2, 655-661 (2011). 

http://dx.doi.org/10.4236/jep.2011.25075

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