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Open Access
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Jay Prakash, Gaurav, Suraj Yada, Ramdas Meena, Arti Meena, Chandan Kumar Chandravanshi
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- Assistant Professor, Student, Student, Student, Assistant Professor Department of Civil Engineering , Rajasthan Institute of Engineering and Technology Jaipur 302041 (Rajasthan), India., Department of Civil Engineering , Rajasthan Institute of Engineering and Technology Jaipur, Department of Civil Engineering , Rajasthan Institute of Engineering and Technology Jaipur, Department of Civil Engineering , Rajasthan Institute of Engineering and Technology Jaipur, Department of Civil Engineering , Rajasthan Institute of Engineering and Technology Jaipur Rajasthan, Rajasthan, Rajasthan, Rajasthan, Rajasthan India, India, India, India, India
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Abstract
nGroundwater studies are paramount, focusing primarily on assessing groundwater quality, a critical aspect given its multifaceted importance. Jaipur city stands out as a significant case study, where groundwater quality has undergone a noticeable decline due to the rapid pace of industrialization and urban development. To comprehensively investigate this phenomenon, a field study was conducted during the winter season, involving the random collection of six groundwater samples from diverse areas within Jaipur city, sourced from different hand pumps to ensure a representative sample set. Advanced digital meters were utilized to meticulously measure parameters such as pH, electrical conductivity (EC), and total dissolved solids (TDS). The ensuing analysis uncovers a worrisome trend, highlighting the poor quality of subterranean water in Jaipur. This revelation underscores the pressing need for further research initiatives and concerted actions aimed at addressing the underlying factors contributing to the degradation of groundwater quality in rapidly urbanizing settings like Jaipur.
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Keywords: Jaipur City, ground water, winter season, pH, EC, TDS
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References
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1. Abbasi, S.A., Khan, F.I., Sentilvelan, K., & Shabudeen, A. (2002). Modelling of Buckingham Canal Water Quality. Indian Journal of Environmental Health, 44(4), 290-297.
2. APHA. (1985). Standard methods for the examination of water and wastewater (16th ed.). American Public Health Association, American Water Works Association, Water Pollution Control Federation, Washington D.C.
3. Chopra, R.P.S., & Krishan, G. (2014). Analysis of aquifer characteristics and groundwater quality in southwest Punjab, India. Journal of Earth Science and Engineering, 4, 597-604.
4. Chopra, R.P.S., & Krishan, G. (2014). Assessment of groundwater quality in Punjab. Journal of Earth Science and Climate Change, 5, 243.
5. Hem, J.D. (1970). Study and interpretation of the chemical characteristics of natural water (2nd ed.). U.S. Geological Survey Water Supply Paper 1473, 363 p.
6. International Association of Hydrogeologist (IAH). (1979). Map of mineral and thermal water of Europe (Scale: 1:500,000). United Kingdom: IAH.
7. Jagdap, J., Kachawe, B., Deshpande, L., & Kelkar, P. (2002). Water Quality Assessment of the Purna River for Irrigation Purpose in Buldana District, Maharashtra. Indian Journal of Environmental Health, 44(3), 247-257.
8. Jangir, J.P., Sharma, A., Singh Sengar, M.P., & Gupta, C.M. (1990). Indian Journal of Environmental Protection, 10(7), 515-517.
9. Patnaik, K.N., Satyanarayan, S.V., & Rout Swoyam Poor. (2002). Water Pollution from major industries in Paradip Area-A Case study. Indian Journal of Environmental Health, 44(3), 203-211.
10. Piper, A.M. (1953). A graphic procedure in the geochemical interpretation of water analyses. U.S. Geological Survey Groundwater Note 12.
11. Richard, L.A. (1954). Diagnosis and improvement of Saline and Alkali Soils. Agricultural Handbook 60, U.S. Dept. of Agriculture, Washington, D.C., 160 pp.
12. APHA. (1998). Standard methods for the examination of water and wastewater (20th ed.). American Public Health Association, American Water Works Association, Water Environment Federation, Washington D.C.
13. Datta, P.S., & Tyagi, S.K. (1996). Groundwater Quality Assessment of a Part of National Capital Region, India. Environmental Geology, 28(1-2), 1-10.
14. Dwivedi, A.K., & Mishra, B.K. (2009). Hydrochemical characteristics and groundwater quality assessment in Varanasi City, India. Environmental Monitoring and Assessment, 159(1-4), 341-351.
15. Freeze, R.A., & Cherry, J.A. (1979). Groundwater. Prentice-Hall.
16. Srinivasamoorthy, K., Gopinath, M., Chidambaram, S., & Vasanthavigar, M. (2010). Major ion chemistry, weathering processes and water quality assessment in lower part of the Ponnaiyar River Basin, South India. Environmental Monitoring and Assessment, 171(1-4), 289-316.
17. Todd, D.K., & Mays, L.W. (2005). Groundwater Hydrology (3rd ed.). John Wiley & Sons.
18. Viessman Jr, W., & Hammer, M.J. (1998). Water Supply and Pollution Control. Pearson.
19. Wilcox, L.V. (1948). The Quality of Water for Irrigation Use. U.S. Department of Agriculture, Technical Bulletin No. 962.
20. World Health Organization (WHO). (2017). Guidelines for Drinking-Water Quality (4th ed.). Geneva, Switzerland: WHO Press.
21. Sharma, D.K., J.P. Jangir, C.P.S. Chandel and C.M. Gupta(1988): Studies in quality of water in and around Jaipur: Fluoride levels of Drinking waterfrom various sources in villages around Jaipur. J. Indian Water Works Associati on 121-122(1990)
22. Sharma Surendra Kumar, Vijendra Singh and C.P. Singh Chandel (2004): ground water pollution problem and evaluation of Physico- Chemical properties of Ground Water. Environment and Ecology, 22 (spl-2): 319-324.
23. Singh Vijendra and C.P. Singh Chandel (2006): Analysis of Wastewater of Jaipur City for Agricultural Use. Research Journal of Chemistry and Environment. 10(1): 3033.
24. WHO (1996). World Health Organization. Guidelines for drinking water quality. Geneva 2: 231
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| Volume | ||
| [if 424 equals=”Regular Issue”]Issue[/if 424][if 424 equals=”Special Issue”]Special Issue[/if 424] [if 424 equals=”Conference”][/if 424] | ||
| Received | April 22, 2024 | |
| Accepted | May 3, 2024 | |
| Published | May 4, 2024 |
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