Abstract
Groundwater is an indispensable natural resource for drinking water, generally in rural areas due to unavailability of treated water. The study was designed to investigate the groundwater quality in nine open-defecation-free (ODF) villages (Nirmal Grams) of Kurukshetra district, Haryana, India. For the research, 81 groundwater samples were collected from different borewells of Nirmal Grams during pre-monsoon (PRM), monsoon (MON), and post-monsoon (POM) seasons and were analyzed for 13 water quality parameters, i.e., pH, EC, TDS, Cl−, TH, Ca2+, Mg2+, Na+, K+, HCO3−, F−, SO42−, and PO42−, using standard methods. The Water Quality Index (WQI) was calculated from the analyzed parameters and the results were compared with the World Health Organization (WHO 2011) and the Bureau of Indian Standards (BIS 2012) in order to have an overview of the groundwater quality. The concentration of major anions and cations was found to be in the order of HCO3− > Cl− > SO42− > F− > PO42− and Ca2+ > Na+ > K+ > Mg2+, respectively. Statistical Package of Social Sciences (SPSS) version 23 was used for statistical analysis, Aquachem 2014 software (trial version) was used for Piper diagram, Box-Whisker plot, Schoeller, and Gibbs diagram, whereas WQI was calculated manually. The values of WQI in the study area were ranged between 32.08 and 88.38 in PRM, 46.62 and 102.33 in MON, and 34.99 and 79.81 in POM seasons, respectively. Groundwater quality index reveals that the majority of the samples fall under ‘good’ to ‘excellent’ water category. It indicates that the groundwater is suitable for drinking and other domestic uses.
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Agrawal, V., & Jagetia, M. (1997). Hydrogeochemical assessment of groundwater quality in Udaipur city, Rajasthan, India (pp. 151–154). Baroda: Proceedings of National Conference on dimensions of environmental stress in India.
Alam, M., Rais, S., & Aslam, M. (2012). Hydrochemical investigation and quality assessment of ground water in rural areas of Delhi, India. Environmental Earth Sciences, 66, 97–110.
Amadi, A. N., Nwankwoala, H. O., Olasehinde, P. I., Okoye, N. O., Okunlola, I. A., & Alkali, Y. B. (2012). Investigation of aquifer quality in Bonny Island, eastern Niger Delta, Nigeria using geophysical and geochemical techniques. Journal of Emerging Trends in Engineering and Applied Sciences, 3(1), 180–184.
APHA (American Public Health Association-AWWA (The American Water Works Association)-WEF (Water Environment Federation) (2005). Standard methods for the examination of water and wastewater (20th edition), Washington, DC, USA.
BIS (Bureau of Indian Standards). (2012). Indian drinking water specification- second revision. New Delhi: Manak Bhavan.
Bishnoi, M., & Malik, R. (2008). Ground water quality in environmentally degraded localities of Panipat city, India. Journal of Environmental Biology, 29(6), 881–886.
Brown, R. M., McClelland, N. I., Deininger, R. A., & Tozer, R. G. (1970). A water quality index: Do we dare? Water & Sewage Works, 117, 339–343.
CGWB (Central Ground Water Board). (2013). Ground water information booklet, Kurukshetra district, Haryana. Chandigarh: Ministry of Water Resources, Government of India, North western region.
Chadha, D. K. (1999). A proposed new diagram for geochemical classification of natural waters and interpretation of chemical data. Hydrogeology Journal, 7, 431–439.
Cobbina, S. J., Nyame, F. K., & Obiri, S. (2012). Groundwater quality in the Sahelian region of northern Ghana, West Africa. Research Journal of Environmental and Earth Sciences, 4, 482–491.
DDWS (Department of Drinking Water and Sanitation) (2011). Assessment study of impact and sustainability of Nirmal Gram Puraskar. Ministry of rural development, Government of India.
Durvey, V. S., Sharma, L. L., Saini, V. P., & Sharma, B. K. (1991). Handbook on the methodology of water quality assessment. India: Rajasthan Agriculture University.
Gibbs, R. J. (1970). Mechanisms controlling world water chemistry. Science, 17, 1088–1090.
Horton, R. K. (1965). An index number system for rating water quality. Journal–Water Pollution Control Federation, 37, 300–305.
Jalali, M. (2011). Nitrate pollution of groundwater in Toyserkan, western Iran. Environmental Earth Sciences, 62, 907–913.
Kannan, K., & Sundaram, M. M. (2002). Physicochemical characteristics of commercial and indigenously prepared activated of carbons and their application in removal of dyes. Indian Journal of Environmental Protection, 22(5), 495–499.
Karanth, K. R. (1997). Groundwater assessment, development and management. New Delhi: Tata McGraw-Hill Publishing Company Limited.
Kaushik, A., Sharma, H. R., Mehta, B., Pragya, Shilpa, Sapna, Ishita, & Veenu. (2000). Groundwater quality of Ambala and Nilokheri cities in Haryana in relation to land-use. Environment and Ecology, 18(3), 616–623.
Kaushik, A., Kumar, K., Kanchan, Taruna, & Sharma, H. R. (2002). Water quality index and suitability assessment of urban ground water of Hisar and Panipat in Haryana. Journal of Environmental Biology, 23(3), 325–333.
Kaushik, A., Kumar, K., Sharma, I. S., & Sharma, H. R. (2004). Groundwater quality assessment in different land-use areas of Faridabad and Rohtak cities of Haryana using deviation index. Journal of Environmental Biology, 25(2), 173–180.
Kaushik, A., Sharma, H. R., & Kaushik, C. P. (2007). Assessment of groundwater quality for sustainable agricultural use. Indian Journal of Environment Protection, 27(8), 724–728.
Khaiwal, R., & Garg, V. K. (2006). Distribution of fluoride in groundwater and its suitability assessment for drinking purposes. International Journal of Environmental Health Research, 16, 163–166.
Krishan, G., Singh, S., Gurjar, S., Kumar, C. P. & Ghosh, N. C. (2016). Water quality assessment in terms of water quality index (WQI) using GIS in Ballia district, Uttar Pradesh, India. Journal of Environment and Analytical Toxicology, 6(3).
Kumar, R., Singh, R. D., & Sharma, K. D. (2005). Water resources of India. Current Science, 89, 794–811.
Kumar, V. S., Amarender, B., Dhakate, R., Sankaran, S., & Raj Kumar, K. (2016). Assessment of groundwater quality for drinking and irrigation use in shallow hard rock aquifer of Pudunagaram, Palakkad District Kerala. Applied Water Science, 6, 149–167.
Manish, K., Ramanathan, A., Rao, M. S., & Kumar, B. (2006). Identification and evaluation of hydrogeochemical processes in the groundwater environment of Delhi, India. Environmental Geology, 50, 1025–1039.
Meenakshi, Garg, V. K., Kavita, Renuka, & Malik, A. (2004). Groundwater quality in some villages of Haryana, India: Focus on fluoride and fluorosis. Journal of Hazardous Materials, 106B, 85–97.
Mor, S., Ravindra, K., De Visscher, A., Dahiya, R. P., & Chandra, A. (2006). Municipal solid waste characterization and its assessment for potential methane generation: A case study. Science of the Total Environment, 371, 1–10.
MOWR (Ministry of Water Resources) (2010). Ground water scenario of India (2009–10). Faridabad: Central GroundWater Board, Government of India.
MOWR (Ministry of Water Resources) (2016). Palaeochannels of North West India: Review and assessment, Report of the Expert Committee to review available information on palaeochannels. Available at: http://mowr.gov.in/writereaddata/PalaeochannelExpertCommittee_15thOct2016.pdf. Accessed on: 11th July 2017.
Naik, S., & Purohit, K. M. (2001). Studies on water quality of river Brahmani in Sundargarh district, Orissa. Journal of Environment and Ecoplanning, 5(2), 397–402.
Nitsch, C., Heitland, H. J., Marsen, H., & Schlüssler, H. J. (2000). Cleansing agents. In: Ullmann’s encyclopedia of industrial chemistry (on-line) (pp. 1–23). Weinheim: Wiley-VCH Verlag GmbH and Co. KGaA.
Njitchoua, R., & Ngounou, N. B. (1997). Hydrogeochemistry and environmental isotope investigations of the north Diamare plain, northern Cameroon. Journal of African Earth Sciences, 25, 307–316.
Oketola, A. A., Adekolurejo, S. M., & Osibanjo, O. (2013). Water quality assessment of river Ogun using multivariate statistical techniques. Journal of Environmental Protection, 4, 466–479.
Parasanna, M. V., Chidambaram, S., Gireesh, T. V., & Jabir Ali, T. V. (2011). A study on hydrochemical characteristics of surface and subsurface water in and around Perumal Lake, Cuddalore district, Tamil Nadu, South India. Environmental Earth Sciences, 63, 31–47.
Piper, A. M. (1953). A graphic procedure in the geochemical interpretation of water analysis. USGS Groundwater Note no. 12.
Raju, N. J., Shukla, U. K., & Ram, P. (2011). Hydrogeochemistry for the assessment of groundwater quality in Varanasi: A fast-urbanizing center in Uttar Pradesh, India. Environmental Monitoring and Assessment, 173, 279–300.
Ramachandraiah, C. (2004). Right to drinking water in India, Centre for Economic and Social Studies, Hyderabad, 56.
Rout, C., & Sharma, A. (2011). Assessment of drinking water quality: A case study of Ambala cantonment area, Haryana, India. International Journal of Environmental Sciences, 2(2), 933–945.
Saeedi, M., Abessi, O., Sharifi, F., & Meraji, H. (2009). Development of groundwater quality index. Environmenal Monitoring and Assessment, 163(1–4), 327–335. https://doi.org/10.1007/s10661-009-0837-5.
Sahu, P., & Sikdar, P. K. (2008). Hydrochemical framework of the aquifer in and around East Kolkata wetlands, West Bengal, India. Environmental Geology, 55, 823–835.
Singh, S., Singh, P., Kumar, R., & Saharan, S. (2012). Groundwater quality analysis of Safidon and Julana blocks of district Jind, Haryana, India. Journal of Water Resource and Protection, 4, 39–37.
Singh, S., Janardhana Raju, N., & Ramakrishna, C. (2015). Evaluation of groundwater quality and its suitability for domestic and irrigation use in parts of the Chandauli-Varanasi region, Uttar Pradesh, India. Journal of Water Resource and Protection, 7, 572–587.
Srinivasamoorthy, K., Chidambaram, M., Prasanna, M. V., Vasanthavigar, M., John Peter, A., & Anandhan, P. (2008). Identification of major sources controlling groundwater chemistry from a hard rock terrain— A case study from Mettur taluk, Salem district, Tamilnadu, India. Journal of Earth System Science, 117(1), 49–58.
Subba Rao, N., Subrahmanyam, S., Ravi Kumar, S., Sribivasulu, N., Babu Rao, G., Surya Rao, P., & Venkatram Reddy, G. (2012). Geochemistry and quality of groundwater of Gummanampadu sub-basin Guntur District, Andhra Pradesh, India. Environmental Earth Sciences, 67(5), 1451–1471. https://doi.org/10.1007/s12665-012-1590-6.
Tiwari, T. N., & Mishra, M. A. (1985). A preliminary assignment of water quality index of major Indian rivers. Indian Journal of Environment Protection, 5, 276–279.
Tiwari, M., Shukla, N. K., Kumar, V., Sharma, G. D., Gupta, M. K., Singh, A., Toppo, P., & Tiwari, M. K. (2015). Assessment of ground water quality of Hamirpur District, Uttar Pradesh, India. International Journal of Current Microbiology and Applied Sciences, 4(1), 597–603.
Todd, D. K. (2008). Groundwater hydrology. 3. Hoboken. Wiley.
UN (UNITED NATIONS). (2006). The millennium development goals report. New York: United Nations.
Vasanthavigar, M., Srinivasamoorthy, K., & Vijayaragavan, K. (2010). Application of water quality index for groundwater quality assessment: Thirumanimuttar sub-basin, Tamilnadu, India. Environmental Monitoring and Assessment, 171, 595–609. https://doi.org/10.1007/s10661-009-1302-1.
WHO (World Health Organization). (2011). Guidelines for drinking-water quality (4th ed.). Geneva: World Health Organization.
WHO (World Health Organization)/ UNICEF (United Nations Children’s Fund). (2015). Progress on sanitation and drinking water – 2015 update and MDG assessment. Geneva: World Health Organization.
Acknowledgements
The authors gratefully acknowledge hereby Professor Smita Chaudhry, Director of the Institute of Environmental Studies, Kurukshetra University, Kurukshetra, India, for providing laboratory facilities for the research. We extend our appreciation to all the residents who allowed us to collect water samples.
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Malan, A., Sharma, H.R. Groundwater quality in open-defecation-free villages (NIRMAL grams) of Kurukshetra district, Haryana, India. Environ Monit Assess 190, 472 (2018). https://doi.org/10.1007/s10661-018-6852-7
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DOI: https://doi.org/10.1007/s10661-018-6852-7