A CASE STUDY IN WATER QUALITY IN VARIOUS AREA & DEFERENT PARAMETER

Authors

  • Mrs. Swati Sarwa School of Biological and Chemical Sciences, MATS University, Raipur (C.G)
  • Dr. Piyush Kumar Thakur School of Biological and Chemical Sciences, MATS University, Raipur (C.G)
  • Dr. Shweta Choubey Professor and Head, Department of Basic Sciences, Govt. Engineering College Raipur (C.G.)PIN:492001

Keywords:

water quality, river, standards, parameter, Indian, Chhattisgarh River

Abstract

This paper is show about all water quality parameter and show the India and Chhattisgarh what will be improved for the water quality. This work review for the fames rivers quality and water is directly consumed by all human beings. There are certain national as well as international authorities, who have laid down various standards for domestic use of drinking water. The mansion these paper all the Water Quality Related Problems in Public Health Environment & Agriculture. They are also informing the standards of effluent are related to the quality of waste waters, which are originated from industry, community and agriculture.

References

I. APHA–AWWA–WPCF (1995). Standard methods for examination of waterand wastewater, 19th ed. Washington, District of Columbia: American Public Health Association,

II. American Water Works Association, Water Pollution Control Federation.

III. Bordalo, A. A., Nilsumranchit, W., & Chalermwat, K. (2001). Water quality and uses of the Bangpakong river (Eastern Thailand). Water Research, 35(15), 3635–3642.

IV. Brown, R. M., McClelland, N. I., Deininger, R. A., & Tozer, R.G. (1970). A water quality index: Do we dare? Water and Sewage Works, 117, 339–343.

V. Canadian Council of Ministers of the Environment (CCME) (2001). Canadian water quality guidelines for the protection of aquatic life: CCME Water Quality Index 1.0, Technical Report. In: Canadian environmental quality guidelines, 1999. Winnipeg: Canadian Council of Ministers of the Environment. http://www.ccme.ca/assets/pdf/wqi_techrprtfctsht_e.pdf.

VI. Chang, H. (2005). Spatial and temporal variations of water quality in the river and its tributaries, Seoul, Korea, 1993–2002. Water, Air, and Soil Pollution, 161, 267–284.

VII. Chapman, D. (1992). Water quality assessment (585 pp.). London: Chapman & Hall (on behalf of UNESCO, WHO and UNEP).

VIII. Cude, C. G. (2001). Oregon water quality index: A tool for evaluating water quail management effectiveness. Journal of American Water Resources Association,37(1), 125–137.

IX. Debels, P., Figueroa, R., Urrutla, R., Barra, R., & Niell, X. (2005). Evaluation of water quality in the Chillan river (central Chile) using physicochemical parameters and modified water quality index. Environmental Monitoring and Assessment, 110, 301–322.

X. Dojlido, J., Raniszewski, J., & Woyciechowska, J. (1994). Water quality index applied to rivers in the Vistila River Basin in Poland. Environmental Monitoring and Assessment, 33, 33–42.

XI. Environ Monit Assess (2007) 132:93–110 109

XII. Horton, R. K. (1965). An index-number system for rating water quality. Journal of Water Pollution Control Federation, 37(3), 300–306.

XIII. House, W. A., Leach, D. V., & Armitage, P. D. (2001). Study of dissolved silicon and nitrate dynamics in a freshwater stream. Water Research,35(11), 2749–2757.

XIV. Jonnalagadda, S. B., & Mhere, G. (2001). Water quality of the Odzi river in the eastern highlands of Zimbabwe. Water Research, 35, 2371–2376.

XV. MOPE (2000). State of the environment. His Majesty’s Government Ministry of Population and Environment. Kathmandu, Nepal: Ministry of Population and Environment (MOPE)(June 2000).

XVI. MPPW (2003). Optimizing water use in Kathmandu Valley Project. Draft final report, ADB TA 3700 NEP. HMG/Nepal: Ministry of Physical Planning Works.

XVII. Ongley, E. (1998). Modernization of water quality programs in developing countries: Issues of relevancy and cost efficiency. Water Quality International, Sep/Oct, 37–42.

XVIII. Ongley, E. D., & Booty, W. G. (1999). Pollution remediation planning in developing countries: Conventional modeling versus knowledge-based prediction. Water International, 24, 31–38.

XIX. Pesce, S. F., & Wunderlin, D. A. (2000). Use of water quality indices to verify the impact of Cordoba city (Argentina) on Suquýa river. Water Research, 34(11), 2915–2926.

XX. Rauch, W., Henze, M., Koncsos, L., Reichert, P., Shanahan, P., Somlyody, L., et al. (1998). River water quality modelling – I. State of the art. Water Science and Technology, 38, 237–244.

XXI. Rudolf, A., Ahumada, R., & Pe’rez, C. (2002). Dissolved oxygen content as an index of water quality in San Vicente Bay, Chile (36 degrees, 450S). Environmental Monitoring and Assessment, 78, 89–100.

XXII. SAFE (1995). Strategic assessment of Florida’s environment, Florida stream water quality index, statewide summary. online: http://www.pepps.fsu.edu/safe/environ/swq1.html.

XXIII. Said, A., Stevens, D. K., & Sehlke, G. (2004). An innovative index for evaluating water quality in streams. Environmental Assessment,34(3), 406–414.

XXIV. Sanchez, E., Colmenarejo, M. F., Vicente, J., Rubio, A., Garcıa, M. G., Travieso, L., et al. (2006). Use of the water quality index and dissolved oxygen deficit as simple indicators of watersheds pollution. Ecological Indicators doi:10.1016/j.ecolind.2006.02.005.

XXV. Shanahan, P., Henze, M., Koncsos, L., Rauch, W., Reichert, P. Somlyody, L., et al. (1998). River water quality modelling –II. Problems of the art. Water Science and Technology, 38,245–252.

XXVI. Somlyody, L., Henze, M., Koncsos, L., Rauch, W., Reichert, P.,Shanaham, P., et al. (1998). River water quality modelling – III.Future of the art. Water Science and Technology, 38,253–260.

XXVII. Stambuk-Giljanovic, N. (1999). Water quality evaluation by index in Dalmatia. Water Research, 33(16), 3423–3440.

XXVIII. Starker, C., & Abbasid, A. (2006). QUALIDEX – a new software for generating water quality indice. Environmental Monitoring and Assessment, 119(1–3), 201–231.

XXIX. UNPDC (1999). Final report of conservation and development master plan for Bagmati, Bishnumati and Dhobikhola River Corridors. Kathmandu, Nepal: United Nation Development Committee (UNPDC).

XXX. US EPA (1997). Volunteer stream monitoring: A methods manual. EPA 841-B-97-003. Washington, District of Columbia: US Environmental Protection Agency, Office of Water 4503F.

XXXI. USGS (1974). Methods for collection and analysis of water samples for dissolved minerals and gases. Techniques of water-resources investigations. Washington, District of Columbia: US Geological Survey.

XXXII. Zandbergen, P. A., & Hall, K. J. (1998). Analysis of the British Columbia water quality index for watershed managers: A case study of two small watersheds. Water Quality ResearchJournal of Canada, 33, 519–549.

Additional Files

Published

15-11-2018

How to Cite

Mrs. Swati Sarwa, Dr. Piyush Kumar Thakur, & Dr. Shweta Choubey. (2018). A CASE STUDY IN WATER QUALITY IN VARIOUS AREA & DEFERENT PARAMETER. International Education and Research Journal (IERJ), 4(11). Retrieved from http://ierj.in/journal/index.php/ierj/article/view/1672