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March 8, 2009
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December 21, 2009
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Abstract

Gomti River is the lifeline for Lucknow and is a major source of water for domestic use. Over the years extensive urbanization in Lucknow city has changed the characteristics of Gomti River due to disposal of untreated wastes, which mainly include sewage, solid sludge and hospital wastes. This has caused the degradation of Gomti River resulting in aquatic pollution. The river water is extensively used for washing, bathing, recreational and religious activities. In the present paper we are presenting the findings pertaining to different physico-chemical and microbiological parameters, which have been assessed to determine the impact of socio-biological activities on the quality of river water. For this sampling of water has been done from six different sites at three points of every site, in the month of June, 2006 from Gomti River. Hardness of water samples ranged from 315.00-643.00 mg/l. the pH values of water ranged from 8.60- 8.90. The total dissolved solids varied from 230.40-530.50 mg/l and the dissolved oxygen of water varied between 0.00-4.80 mg/l. The chloride concentration varied between 99.30- 224.30 mg/l and the alkalinity of water samples ranged between 307.70-480.00 mg/l, the nitrate of water samples varied from 11.8- 18.6 mg/l. The fluoride concentration water sample was 0.58- 1.15 mg/l. The bacteriological examination of water yielded the results that >1600/100 ml of coliform 1600-> 1600/ 100 ml of fecal coliform were present in the water samples. These results have been clearly shown that the water of Gomti River is severely affected by various socio-biological activities around sampling site.

Keywords

Physico-chemical parameters Urbanization Sociobiological Microbiological parameters Gomti River

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Shukla, A., Sharma, A. K., & Gopal, K. (2009). Impact of socio-biological activities on Gomti River flowing through Lucknow. Environment Conservation Journal, 10(3), 31–34. https://doi.org/10.36953/ECJ.2009.100306
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References

  1. APHA, 2005. Standard methods for examination of water and waste water analysis (21st Ed). American Water Association and Water Pollution Centre federation Washington, D.C.
  2. FEPA, 1991. Guidelines and Standards for environmental Control in Nigeriapublished by the federal Environmental Protection Agency Lagos. pp: 15-34.
  3. Garg, V.K., Sharma, S.I. and Bishnal, S.M., 1998. Fluoride in under ground waters of Uklana town, district Hissar, Haryana. Pollution Res., 17: 149-152.
  4. Kaushik, A., Kumar, A., Sharma, I.S. and Sharma, H.R., 2004. Ground water quality assessment in different land use area of Faridabad and Rohtak cities Haryana using deviation Intec. J. Environ. Biol., 25(2): 173-180.
  5. Kesre, Vivek, Mudgal, L.K., Khanna, D.R., Matta, Gagan and Kumar, Dheeraj, 2007. Study of physico-chemical parameter for a reservoir at Khandwa District (M.P.). Environment Conservation Journal, 8(3): 127-132. DOI: https://doi.org/10.36953/ECJ.2007.080325
  6. Khanna, D.R. and Bhutiani, R., 2004. Water analysis at a glance. Pub. Action for sustainable efficacious development and awareness (ASEA). pp: 1-108.
  7. Khanna, D.R., Singh, Vikas, Bhutiani, R., Chandra, Kumar Satish, Matta, Gagan and Kumar, Dheeraj, 2007. A study of biotic and abiotic factors of Song River at Dehradun, Uttarakhand. Environment Conservation Journal, 8(3): 117-126. DOI: https://doi.org/10.36953/ECJ.2007.080324
  8. Khatavakar, R.S. Shah, N.V., Rao, K.R. and Navale, R.A. 2004. Variation in physico-chemical parameters in fresh water tanks in and around Solapur city, Maharastra. J. Aqua Biol., 19: 111-114.
  9. Kriubauathy, A., Kavitha, B.S., Mariamma, N. and Rajammal, T., 2005. Assessment of water quality of Orathupalayaum reservoir, Erode district, Tamil Nadu. J. Ecophysiol. Occup. Hlth., 5: 53-54.
  10. Mishra, P.C. Pradha, K.C. Patel, R.K. 2003. Quality of water for drinking and agriculture in and around mines in Konjhar district Orissa. Indian J. Environ Helth, 45(3): 213-220.
  11. Rajurkar, N.S., Hongbri, B. and Patwardhan, A.M. 2003. Physicochemical and biological investigation of river Umshyrpi at Shillong Meghalaya, Indian J. Environ Helth, 45(1): 45- 92.
  12. Sakhare, V.B. and Joshi, P.K., 2002. Ecology of Palas-Nilegaon Reservoir in Osmanabad district, Maharastra. J. Aqua. Biol., 18: 17-22.
  13. Saxena, S., 1998. Settling Studies on pulp and paper mill waste waters. Ind J. Environ. Hlth., 20(3): 273-280.
  14. Trivedi R.K. and Goel P.K. 1986. Chemical and Biological methods for water pollution Studies. Environ, Publ.Karod, Maharashtra.
  15. WHO, 2004. Guidelines for drinking water, (3rd Ed). World Health Organization, German.