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2014 | 11 | 1 |
Tytuł artykułu

Water pollution along the Mahul Creek of Mumbai, India – Study of physico-chemical properties

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The present study was performed for the period of one year from January 2013 to December 2013 in order to understand the physico-chemical properties of Mahul Creek water. From the results of our study it was observed that the annual average COD level was 362.09 ppm which was far higher than the maximum tolerable level of 250 ppm set for inland surface water as well as for marine coastal water. The annual average conductivity was found to be 6122.81 μS cm-1 which was very much above the conductivity limit for inland surface water of 1000 μS cm-1 set by Central Pollution Control Board (CPCB) for propagation of fisheries. The annual average total alkalinity level was recorded as 166.25 ppm, which according to the UN Department of Technical Cooperation for Development (1985) was found to be strongly alkaline. The annual average hardness level of the creek water was found to be 2488.65 ppm which was above the limit of 300 ppm set by ISI. From the results of the present investigation it seems that the time has come to implement proper effluent water treatment techniques and enforcement of pollution control by the regulatory authority on the indiscriminate discharge of industrial wastewater into water bodies.
Wydawca
-
Rocznik
Tom
11
Numer
1
Opis fizyczny
p.44-53,fig.,ref.
Twórcy
  • Department of Chemistry, Bhavan’s College, Munshi Nagar, Andheri (West), Mumbai - 400058, India
  • Department of Chemistry, Bhavan’s College, Munshi Nagar, Andheri (West), Mumbai - 400058, India
autor
  • Department of Chemistry, Maharashtra College, Jahangir Boman Behram Marg, Nagpada, Mumbai - 400008, India
Bibliografia
  • 1. P.U. Singare, R.S. Lokhande, A.G. Jagtap, International Journal of Global Environmental Issues, 11(1), 28-36 (2011).
  • 2. P.U. Singare, R.S. Lokhande, A.G. Jagtap, Interdisciplinary Environmental Review, 11(4), 263-273 (2010).
  • 3. R.S. Lokhande, P.U. Singare, D.S. Pimple, World Environment, 1(1), 6-13 (2011).
  • 4. R.S. Lokhande, P.U. Singare, D.S. Pimple, Resources and Environment, 1(1): 13-19 (2011).
  • 5. R.S. Lokhande, P.U. Singare, D.S. Pimple, International Journal of Ecosystem, 1(1), 1-9 (2011).
  • 6. S.K. Sasamal, K.H. Rao, U.M. Suryavansi, International J. Remote Sensing, 28(19), 4391-4395 (2007).
  • 7. A. Nagaraju, S. Suresh, K. Killham, K. Hudson-Edward, Turkish J. Eng. Env. Sci., 30(4), 203-219 (2006).
  • 8. T. Rajaram, A. Das, Futures, 40, 56 (2008).
  • 9. M.D. Zingade, M.M. Sabnis, A.V. Mandalia, B.N. Desai, Mahasagar Bull. Natn. Inst. Occeonagr., 13, 99 (1980).
  • 10. P.U. Singare, S.S. Dhabarde, International Letters of Chemistry, Physics and Astronomy, 3 (2014) 56-63.
  • 11. P.U. Singare, S.S. Dhabarde, International Letters of Chemistry, Physics and Astronomy, 3 (2014) 48-55.
  • 12. P.U. Singare, S.S. Dhabarde, International Letters of Chemistry, Physics and Astronomy, 3 (2014) 40-47.
  • 13. P.U. Singare, S.S. Dhabarde, International Letters of Chemistry, Physics and Astronomy, 3 (2014) 32-39.
  • 14. P.U. Singare, S.S. Dhabarde, International Letters of Chemistry, Physics and Astronomy, 3 (2014) 8-15.
  • 15. P.U. Singare, S.S. Dhabarde, International Letters of Chemistry, Physics and Astronomy, 3 (2014) 16-23.
  • 16. P.U. Singare, S.S. Dhabarde, International Letters of Chemistry, Physics and Astronomy, 3 (2014) 24-31.
  • 17. A. Aghor, ‘Chemicals make Thane creek the worst polluted water body'. Daily DNA. August 14, 2007. Mumbai, India. Obtained through the Internet: http://www.dnaindia.com/mumbai/report_chemicals-make-thane-creek-the-worst- polluted-waterbody_1115439 [accessed 01/03/2010].
  • 18. D. Patil, ‘A lot's fishy about our creek and lake fish’. Daily Times of India. March 22, 2009. Mumbai, India. Obtained through the Internet: http://timesofindia.indiatimes.com/city/thane/A-lots-fishy-about-our-creek-and-lake- fish/articleshow/4298566.cms [accessed 01/03/2010].
  • 19. A. Kumar, Pol. Arch. Hydrobiol., 18, 469 (1996).
  • 20. P.U. Singare, M.S. Talpade, Interdisciplinary Environmental Review, 14(1), 59-68 (2013).
  • 21. R.D. Chakravarty, P. Ray, S.B. Singh, Indian J. Fish., 6, 186 (1959).
  • 22. P. U. Singare, R.M. Mishra, M.P. Trivedi, Resources and Environment, 1(1), 32-41 (2011).
  • 23. P.U. Singare, M.P. Trivedi, R.M. Mishra, D.V. Dagli, Interdisciplinary Environmental Review, 13(2/3), 220-243 (2012).
  • 24. P.U. Singare, M.P. Trivedi, R.M. Mishra, Marine Science, 1(1), 22-29 (2011).
  • 25. P. U. Singare, R.M. Mishra, M.P. Trivedi, Interdisciplinary Environmental Review, 13(4), 245-268 (2012).
  • 26. P.U. Singare, R.S. Lokhande, S.S. Bhattacharjee, Interdisciplinary Environmental Review, 12(02), 95-107 (2011).
  • 27. P.U. Singare, R.S. Lokhande, K.U. Naik, Interdisciplinary Environmental Review, 12(3), 215-230 (2011).
  • 28. P.U. Singare, R.S. Lokhande, K.U. Naik, Interdisciplinary Environmental Review, 11(01), 90-107, (2010).
  • 29. P.U. Singare, R.S. Lokhande, S.V. Bhanage, Interdisciplinary Environmental Review, 12(01), 1-11 (2011).
  • 30. P.U. Singare, R.S. Lokhande, P.P. Pathak, Interdisciplinary Environmental Review, 11(01), 38-56, (2010).
  • 31. P.U. Singare, M.S. Talpade, D.V. Dagli, V.G. Bhawe, Water R & D, 2(3), 79-84 (2012).
  • 32. P.U. Singare, M.S. Talpade, V.G. Bhawe, D.V. Dagli, Research Journal of Pharmaceutical, Biological and Chemical Sciences, 3(4), 545-551 (2012).
  • 33. M.D. Zingde, K. Govindan, Health status of coastal waters of Mumbai and regions around. In: Environmental Problems of Coastal Areas in India (ed. V.K. Sharma), Bookwell Publishers., New Delhi, pp. 119-132 (2001).
  • 34. A. Verma, S. Balachandran, N. Chaturvedi, V. Patil, Zoos’ Print Journal, 19(9), 1599-1605 (2004).
  • 35. F.H. Rainwater, L.L. Thatchar, ‘Methods for Collection and Analysis of Water Samples’ U.S. Geol. Surv. Water Supply Papers, 1454, pp. 1-301 (1960).
  • 36. E. Brown, M.W. Skougstad, M.J. Fishman, ‘Methods for Collection and Analysis of Water Samples for Dissolved Minerals and Gases’, Techniques of Water Resources Investigations of the U.S. Geological Survey, 160, Book 5, Chapter A1 (1970).
  • 37. ICMR, Indian Council of Medical Research, Manual of Standards of Quality for Drinking Water Supplies (1975).
  • 38. J.D. Hem, ‘Study and Interpretation of Chemical Characteristics of Natural Water’, 3rd edition U.S. Geological Survey, Washington (1985).
  • 39. American Public Health Association (APHA) ‘Standard Methods for Estimation of Water and Wastewater’, 19th edition, American Water Works Association, Water environment Federation, Washington, (1995).
  • 40. CPCB (2012) Standards for classification of inland surface water for propagation of wild life, Fisheries. Available at: http://www.wbphed.gov.in/main/Static_pages/guidelinevalues.php (accessed on 10/05/2013).
  • 41. L.V. Wilcox, Classification and Use of Irrigation Waters, US Dept. Of Agricultural Science, Grc, 966 (1955).
  • 42. General Standards for Discharge of Environmental Pollutants in Inland Surface Water Part-A: Effluents, The Environment (Protection) Rules (1986) Available at: http://www.cpcb.nic.in/GeneralStandards.pdf (assessed on November 2011).
  • 43. K. Kannan, Fundamentals of Environmental Pollution. S. Chand and Company Ltd., New Delhi, India (1991).
  • 44. Indian Standard Institute (ISI), Drinking Water Specification (1991).
  • 45. C. Moundiotiya, R. Sisodia, M. Kulshreshtha, A.L. Bhatia, J. Environmental Hydrology, 12, Paper 24, pp. 1-7 (2004).
  • 46. UN Department of Technical Cooperation for Development, The use of non-conventional water resources in developing countries. Natural Water Resources Series No. 14. United Nations DTCD, New York (1985).
  • 47. Omprakash Sahu, International Letters of Natural Sciences 7 (2014) 35-43.
  • 48. Pravin U. Singare, M. V. A. Ansari, N. N. Dixit, International Letters of Natural Sciences 10 (2014) 69-78.
  • 49. Pravin U. Singare, M. V. A. Ansari, N. N. Dixit, International Letters of Natural Sciences 10 (2014) 79-88
  • 50. Piotr Daniszewski, Ryszard Konieczny, International Letters of Chemistry, Physics and Astronomy 4 (2013) 91-97.
  • 51. Piotr Daniszewski, Ryszard Konieczny, International Letters of Chemistry, Physics and Astronomy 4 (2013) 98-104.
  • 52. Piotr Daniszewski, International Letters of Chemistry, Physics and Astronomy 4 (2012) 119-124.
  • 53. Emil Cyraniak, Piotr Daniszewski, Beata Draszawka-Bołzan, International Letters of Chemistry, Physics and Astronomy 5 (2012) 88-95.
  • 54. Emil Cyraniak, Piotr Daniszewski, Beata Draszawka-Bołzan, International Letters of Chemistry, Physics and Astronomy 5 (2012) 96-103.
Typ dokumentu
Bibliografia
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Identyfikator YADDA
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