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Estimation of ground water quality for pre and post monsoon season in physicochemical parameters of Gorakhpur District, U.P., India

Author Affiliations

  • 1Deen Dayal Upadhayay Gorakhpur, University, Gorakhpur, UP, India

Int. Res. J. Environment Sci., Volume 12, Issue (2), Pages 1-5, July,22 (2023)

Abstract

In this study groundwater quality for physico-chemical parameters of premonsoon and post monsoon season of Gorakhpur district has examined. For this analysis ground water samples are collected from twenty sampling sites. It has been found that the conc. of all ground water parameters are higher in premonsoon season than post monsoon season. The physico-chemical parameters which are detected in study are Temperature, pH, EC, Turbidity, TDS, Total Hardness, Alkalinity, Nitrate, Fluoride, Arsenic.

References

  1. Yadav A. K. & P. Khan A. (2013)., Comparative Study of Premonsoon and Postmonsoon Status of Different Physical and Chemical Parameters of water Samples Collected from the Various Sources of Water in To darai singh Tehsil of Tonk (Rajasthan) India., Global Journal of Science Frontier Research Environment & Earth Science, 13(2), 22-32.
  2. Ramamohan H. and Sudhakar I. (2014)., Evaluation of Ground Water Quality for the Pre and Post Monsoon Variations in Physico-Chemical Characteristics of North East Coast of Srikakulam District, A.P., India., International Journal of Engineering Research & Technology, 3(9), 124-129.
  3. Kori R, Saxena A. and Upadhayay N. (2006)., Groundwater quality Assessment of Mandideep Industrial area., National Seminar on Environmental & Development, Bhopal, pp-155.
  4. Rao, M. V. S., Rao, V. D., & Andrews, B. S. A. (2012)., Assessment of quality of drinking water at Srikurmam in Srikakulam district, Andhra Pradesh, India., International Research Journal of Environment Sciences, 1(2), 13-20.
  5. Jones J.A.A. (2011)., Sustaining groundwater resources., International year of planet earth. 207. doi10.1007/978 90-48134267, 13.
  6. Singare, P. U., Mishra, R. M., & Trivedi, M. P. (2012)., Heavy metal pollution in Mithi River of Mumbai., Frontiers in Science, 2(3), 28-36.
  7. Ali, M. M., Ali, M. L., Islam, M. S., & Rahman, M. Z. (2016)., Preliminary assessment of heavy metals in water and sediment of Karnaphuli River, Bangladesh., Environmental Nanotechnology, Monitoring & Management, 5, 27-35.
  8. Gaikwad, SS and Kamble, N A (2014)., Heavy metal pollution of Indian River and its biomagnifications in the mollusks., Oct. Jour. Env. Res., 2(1), 67-76.
  9. Arya, S K et al., (2011)., Heavy metal pollution in river Gomti at Lucknow city., Poll Res., 30(1), 61-65.
  10. Rahman M. A.et al. (2007)., Arsenic Accumulation in Rice (Oryza sativa L.) Varieties of Bangladesh: A Glass House Study., Water Air Soil Pollution., 185(1-4), 53–61.
  11. Thakur, J. K., Thakur, R. K., Ramanathan, A. L., Kumar, M., & Singh, S. K. (2010)., Arsenic contamination of groundwater in Nepal—an overview., Water, 3(1), 1-20.
  12. WHO (2003)., Arsenic and Arsenic Compounds., World Health Organization, Geneva. Environmental Health Criteria-224.
  13. Guha Mazumder, D. N. (2003)., Chronic arsenic toxicity: clinical features, epidemiology, and treatment: experience in West Bengal., Journal of Environmental Science and Health, Part A, 38(1), 141-163.
  14. D.N. Guha Mazumder (2008)., Chronic arsenic toxicity & human health., Indian J. Med. Res., 128 . 436 - 447.
  15. Chakrabarti P.N. and Lahini S. (2000)., Arsenic in Groundwater of West Bengal., Feature Arsenic, GSI NEWS. 31, 3-4.
  16. L. Järup (2003)., Hazards of heavy metal contamination., Br. Med. Bull., 68, 167-182.
  17. IARC (WHO) (2001)., Some Drinking Water Disinfectants and Contaminants, Including Arsenic., Monographs on the Evaluation of Carcinogenic Risks to Humans, 84 (France Lyon).
  18. Kadirvel, R., Sundaram, K., Mani, S., Samuel, S., Elango, N., & Panneerselvam, C. (2007)., Supplementation of ascorbic acid and α-tocopherol prevents arsenic-induced protein oxidation and DNA damage induced by arsenic in rats., Human & experimental toxicology, 26(12), 939-946.