Water pollution of Sabarmati River—a Harbinger to potential disaster

详细信息    查看全文

• 作者：Soumya Haldar (1) <br> Subir Kumar Mandal (1) <br> R. B. Thorat (1) <br> Sangita Goel (1) <br> Krushnakant D. Baxi (1) <br> Navalsang P. Parmer (2) <br> Vipul Patel (1) <br> S. Basha (1) <br> K. H. Mody (1) <br>
• 关键词：Water pollution ; Sabarmati River ; Physicochemical parameters ; Bacteria ; Phytoplankton
• 刊名：Environmental Monitoring and Assessment
• 出版年：2014
• 出版时间：April 2014
• 年：2014
• 卷：186
• 期：4
• 页码：2231-2242
• 全文大小：554 KB
• 参考文献：1. APHA Standard Method for Examination of water and waste water (2005) 21st Ed. APHA, AWWA & WED, Washington. <br> 2. Bere, T., & Tundisi, J. G. (2011). Applicability of borrowed diatom-based water quality assessment indices in streams around S?o Carlos-SP. / Brazil Hydrobiologia, 673, 179-92. doi:10.1007/s10750-011-0772-7 . blank" title="It opens in new window">CrossRef <br> 3. Biligrami, K. S. (1988). Biological monitoring of rivers, problems and prospect in India. / Aquatic Ectovicology, 245-50. <br> 4. Bhutiani, R., & Khanna, D. R. (2007). Ecological study of river Suswa: Modeling DO and BOD. / Environmental Monitoring and Assessment, 125, 183-95. doi:10.1007/510661-006-9251-4 . blank" title="It opens in new window">CrossRef <br> 5. Bordalo, A., Nilsumranchit, W., & Chalermwat, K. (2001). Water quality and uses of the Bangpakong River (Eastern Thailand). / Water Reserch, 35, 3635-642. blank" title="It opens in new window">CrossRef <br> 6. Brown, R. M., McClelland, N. I., Deininger, R. A., & Tozer, R. G. (1970). / Journal of Water and Sewage Works, 117, 339. <br> 7. Celik, M. (2002). Water quality assessment and investigation of the relationship between the River Delice and the aquifer systems in the vicinity of Yerkoy (Yozgat, Turkey). / Environmental Geology, 42, 690-00. <br> 8. Datta, P. S. (1983). / Trend analysis of water quality in the Sabarmati river at Ahmedabad for a decade (1969-978). Dissolved loads of River and Surface water quantity/quality relationship (Proceedings of the Hamburg Symposium, August 1983). IAHS Publ., No. 141. <br> 9. Davi, M. L., & Gnudi, F. (1999). Phenolic compounds in surface water. / Water Reserch, 33, 3213-219. blank" title="It opens in new window">CrossRef <br> 10. Desikachary, T. V. (1986-989). / Atlas of Diatoms- Marine diatoms of the Indian Ocean region Vol.I-VI. Madras Science Foundation, Madras, (Plate 1-09). <br> 11. Dojlido, J., Raniszewski, J., & Woyciechowska, J. (1994). Water quality index applied to rivers in the Vistula river basin in Poland. / Environtal Monitering and Assessment, 33, 33-2. blank" title="It opens in new window">CrossRef <br> 12. Grasshoff, K., Kremling, K., & Ehrhardt, M. (1999). Methods of Seawater Analysis third edition, / Grasshoff Willey-VCH. doi 10.1002/9783527613984 . <br> 13. Hassan, M. S., Salem, F. B., & El-salam, N. A. (1987). Colorimetric determination of phenol in water samples. / Analytical Letters, 20, 677-87. doi:10.1080/00032718708062921 . blank" title="It opens in new window">CrossRef <br> 14. He, B., Oki, T., Kanae, S., Mouri, G., Kodama, K., Komori, D., et al. (2009). Integrated biogeochemical modelling of nitrogen load from anthropogenic and natural sources in Japan. / Ecological Modeling, 220, 2325-334. doi:10.1016/j.ecomodel.2009.05.018 . blank" title="It opens in new window">CrossRef <br> 15. He, B., Kanae, S., Oki, T., Hirabayashi, Y., Yamashiki, Y., & Takara, K. (2011). Assessment of global nitrogen pollution in rivers using an integrated biogeochemical modeling framework. / Water Research, 45, 2573-586. doi:10.1016/j.waters.2011.02.011 . blank" title="It opens in new window">CrossRef <br> 16. IS: Tolerance Limits for Inland Surface Waters Subject to Pollution (IS-1055: 1991), ISI New Delhi, India (1991). <br> 17. IS: Tolerance Limits for Inland Surface Waters Subject to Pollution (IS-2296: 1974), ISI New Delhi, India (1974). <br> 18. Jain, S. K., Agarwal, P. K., & Singh, V. P. (2007). / Hydrology and water resources of India. Dordrecht, The Netherlands: Springer. 13-978-1-4020-5180-7, e-book. <br> 19. Kannel, P. R., Lee, S., Lee, Y. S., Kanel, S. R., & Khan, S. P. (2007). Application of water quality indices and dissolved oxygen as indicators for river water classification and urban impact assessment. / Environmental Monitoring and Assessesment, 132, 93-10. doi:10.1007/s1066/-006-9505-1 . blank" title="It opens in new window">CrossRef <br> 20. Karydis, M. (2009). Eutrophication assessment of coastal waters based on indicators: A Literature review. / Global NEST Journal, 11, 373-90. <br> 21. Kinnear, P. R., & Gray, C. D. (2000). Spss for Windows Made Simple: Release 10. Psychology Press Ltd, - Computers - 416 pages. <br> 22. Kumar, R. N., Solanki, R. H., & Kumar, J. I. N. (2011). Assessment of spatial and temporal Variation in physic-chemical properties of water in river Sabarmati and Kharicut canel at Ahmedabad, Gujarat. / Nat Environ Poll Techno, 10, 147-54. <br> 23. Li, S., Gu, S., Tana, X., & Zhang, Q. (2009). Water quality in the upper Han River basin, China: The impacts of land use/land cover in riparian buffer zone. / Journal Hazard Mat, 165, 317-24. doi:10.1016/j.jhazmat.2008.09.123 . blank" title="It opens in new window">CrossRef <br> 24. Mahapatra, S. S., Sahu, M., Patel, R. K., & Panda, B. N. (2012). Prediction of Water Quality Using Principal Component Analysis. / Water Qual Expo Health, 4, 93-04. doi:10.1007/s12403-012-0068-9 . blank" title="It opens in new window">CrossRef <br> 25. Meybeck, M., & Helmer, R. (1989). The quality of rivers: from pristine stage to global pollution. / Global and Planetary Change Journal, 75, 283-09. doi:10.1016/0921-8181(89)90007-6 . <br> 26. Mishra, A. (2010). Assessment of Water Quality Using Principal Component Analysis: A Case Study of the River Ganges, / Journal of Water Chemistry and Technology, 227-34. <br> 27. Mishra, A., Bhatt, V. D., Sevak, N., Shah, P., Patel, K., & Patel, C. (2010). Comparative study of Physico-chemical and microbiological parameters on lotic and ground water in selected outlaying area of central Gujarat. / Journal of Chemical and Phermaceautical Research, 2, 174-77. <br> 28. Moskovchenko, D. V., Babushkin, A. G., & Artamonova, G. (2009). Surface water Quality assessment of the Vatinsky Egan River catchment, West Siberia. / Environtal Monitoring and Assessment, 148, 359-68. doi:10.1007/s10661-008-0166-0 . blank" title="It opens in new window">CrossRef <br> 29. Odume, O. N., & Muller, W. J. (2011). Diversity and structure of Chironomidae communities in relation to water quality differences in the Swartkops River. / Physical Chemistry of Earth, 36, 929-38. doi:10.1016/j.pce.2011.07.063 . blank" title="It opens in new window">CrossRef <br> 30. Olufemi, A. G., Tunde, E. O., & Temitope, A. O. (2011). Determination of total petroleum hydrocarbons and heavy metals in surface water and sediment of Ubeji River, Warri, Nigeria. / Bioremediation, Biodiversity and Bioavailability, 5, 46-1. <br> 31. Panchani, M. H., & Pandya, M. J. (2013). Identification and quantification of non-point sources of pollution to Sabarmati River, Ahmedabad. / International Journal of Engineering Research, 2, 71-5. <br> 32. Pescem, S. F., & Wunderlin, D. A. (2000). Use of water quality indices to verify the Impact of Coardoba City (Argentina) on Suquoia River. / Water Research, 34, 2915-926. doi:10.1016/50043-1354(00)00036-1 . blank" title="It opens in new window">CrossRef <br> 33. Phiri, O., Mumba, P., Moyo, B. H. Z., & Kadewa, W. (2005). Assessment of the impact of industrial effluents on water quality of receiving rivers in urban areas of Malawi. / International Journal of Environmental Science and Technology, 2(3), 237-44. blank" title="It opens in new window">CrossRef <br> 34. Priyadarshi, N. (2009). Ganga river pollution in India- A brief report, American Chronicle, July 8, (http://www.americanchronicle.com/articles/view/109078). <br> 35. Rodier, J. (1984). / L’analyse de l’eau: eaux naturelles, eaux résiduaires, eau de mer, 7e Edition. Paris: Dunod, Bordas. <br> 36. Saha, N. C., Bhunia, F., & Kaviraj, A. (1999). Toxicity of phenol to fish and aquatic ecosystems. / Bulletin of Environmental Contamination and Toxicology, 63, 198-02. blank" title="It opens in new window">CrossRef <br> 37. Saksena, D. N., Garg, R. K., & Rao, R. J. (2008). Water quality and pollution status of Chambal river in National Chambal sanctuary. / M P J Environ Biol, 29, 701-10. <br> 38. Sampat, P. (1996). The river Ganges-long decline. / World Watch, 9, 24. <br> 39. Status of Water Quality in India (2007) pp. 52-4. <br> 40. Suthar, S., Sharma, J., Chabukdhara, M., & Nema, A. K. (2010). Water quality assessment of river Hindon at Ghaziabad, India: impact of industrial and urban wastewater. / Environmental Monitoring and Assessment, 165, 103-12. doi:10.1007/s10661-009-0930-9 . blank" title="It opens in new window">CrossRef <br> 41. Tomas, C. R. (1998). / Identifying Marine Phytoplankton. Edited by Carmelo R. Tomas. Published by Academic Press. 858. <br> 42. Trobajo, R., Clavero, E., Chepurnov, V. A., Sabbe, K., Mann, D. G., Ishihara, S., et al. (2009). Morphological, genetic and mating diversity within the widespread bioindicator Nitzschia palea (Bacillariophyceae). / Phycologia, 48, 443-59. doi:10.2216/08-69.1 . blank" title="It opens in new window">CrossRef <br> 43. Vieira, J. S., Pires, J. C. M., Martins, F. G., Vilar, V. J. P., Boaventura, R. A. R., & Botelho, C. M. S. (2012). Surface Water Quality Assessment of Lis River Using Multivariate Statistical Methods. / Water Air Soil Pollution, 223, 5549-561. doi:10.1007/S11270-012-1267-5 . blank" title="It opens in new window">CrossRef <br> 44. Villalobos, M., Avila-Forcada, A. P., & Gutierrez-Ruiz, M. E. (2008). An improved gravimetric method to determine total petroleum hydrocarbon in contaminated soils. / Water Air Soil Pollution, 194, 151-61. doi:10.1007/s11270-008-9704-1 . blank" title="It opens in new window">CrossRef <br> 45. WHO (2006). Guidelines for Drinking-Water Quality, third ed., vol.1 –Recommendations. Word Health Organ. <br>
• 作者单位：Soumya Haldar (1) <br> Subir Kumar Mandal (1) <br> R. B. Thorat (1) <br> Sangita Goel (1) <br> Krushnakant D. Baxi (1) <br> Navalsang P. Parmer (2) <br> Vipul Patel (1) <br> S. Basha (1) <br> K. H. Mody (1) <br><br>1. Marine Biotechnology and Ecology Discipline, CSIR-Central Salt and Marine Chemicals Research Institute, GB Marg, Bhavnagar, Gujarat, 364002, India <br> 2. Bhavnagar Municipal Corporation, Bhavnagar, Gujarat, India <br>
• ISSN：1573-2959

文摘

River Sabarmati is one of the biggest and major river of Gujarat that runs through two major cities of Gujarat, Gandhinagar and Ahmedabad and finally meets the Gulf of Khambhat (GoK) in the Arabian Sea. A study was conducted to evaluate the water quality of this river, as it could possibly be one of the major sources for filling up Kalpasar, the proposed man-made freshwater reservoir supposed to be the biggest one in the world. A total of nine sampling stations were established covering 163?km stretch of the river from upstream of Gandhinagar city to Vataman near Sabarmati estuary. Physicochemical (temprature, pH, salinity, chloride, total dissolved solids, turbidity, dissolved oxygen, biochemical oxygen demand, phenol, and petroleum hydrocarbons), biological (phytoplankton), and microbiological (total and selective bacterial count) analyses indicated that the river stretch from Ahmedabad-Vasana barriage to Vataman was highly polluted due to perennial waste discharges mainly from municipal drainage and industries. An implementation of sustainable management plan with proper treatment of both municipal and industrial effluents is essential to prevent further deterioration of the water quality of this river.