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CCME-WQI and TM-WQI based Assessment for Groundwater Quality in Garividi region of Vizianagaram District, Andhra Pradesh, India


Affiliations
1 Research Scholar, Department of Civil Engineering, AU College of Engineering (A), Andhra University, Visakhapatnam - 530003, Andhra Pradesh, India
2 Faculty, Department of Civil Engineering, AU College of Engineering (A), Andhra University, Visakhapatnam - 530003, Andhra Pradesh, India
3 Faculty, Department of Chemistry, Visakha Government Degree College (W), Visakhapatnam, A.P., India
     

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The Canadian Council of Ministers of the Environment method (CCME) and the Logarithmic Aggregation method proposed by Tiwari and Mishra (TM) were used to assess the groundwater quality for drinking in Garividi region (Gurla, Gajapatinagaram, Dattirajeru, Merakamuidam, Cheepurupalli and Garividi mandals) which occupy some central part of Vizianagaram district of Andhra Pradesh, India. The groundwater samples were collected during every month from November 2018 to October 2019 from 38 bore wells of selected sampling locations in the study area. Fourteen parameters such as pH, EC, TDS, TH, TA, Ca2+ , Mg2+ , Na+ , CO3 2- , HCO3- , Cl-, SO42-, NO3-, F- of samples were analyzed using standard laboratory procedures. This paper describes the assessment of ground water quality for drinking purposes using CCME and TM water quality index methods and water quality parameters variation with regression correlation analysis during Post and Pre monsoons and monsoon. From CCME-WQI analysis, it is observed that quality of about 2.63% of the water samples is Excellent, about 28.95% of the water samples is Good, about 52.63% of the water samples is Fair, about 5.26% is Marginal and remaining 10.53% is Poor and from TM-WQI analysis, it is observed that quality of about 2.63% of the water samples is Excellent, quality of about 42.1% of the water samples is good, about 39.5% is Medium, about 13.2% is poor and remaining 2.63% is unsuitable for drinking purpose in the study area. From the correlation analysis, it is observed that EC and TDS are the important parameters, as they are significantly correlated with other parameters.

Keywords

Analysis, Correlation matrix, CCME-WQI, Logarithmic Aggregation, TM-WQI.
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  • G. Srinivas Rao, G. Nageswara Rao. Assessment of Water Quality Index for Groundwater in Greater Visakhapatnam City, Andhra Pradesh, India, Asian J. Research Chem. 2011; 4(8): 1324-1333.
  • G. V. R. Srinivasa Rao, G. Rupa Kumari, T. P. Sreejani, B. Kalyanaramu. WQI based Analysis of Groundwater Quality in Lakkavarapu Kota region, Vizianagaram District, Andhra Pradesh. Research J. Science and Tech. 2020; 12(4):235-241.
  • Sajad Abdul-Geni Abdullah, Naeem Shanad Hammadi, Yasser Wassfi Ouda, Assessment of the lower reaches of Tigris River by a development of a water quality index (WQI). Research J. Science and Tech. 2018; 10(1): 01-08
  • Mohammad Mohsin, Vidya Pradhan, Mazahar Farooqui, S.D. Rathod. Groundwater Quality: A Review. Asian J. Research Chem. 2011; 4(12): 1812-1817.
  • Nandkishor G. Telkapalliwar. Analysis of Groundwater Quality Parameters in Selected Villages of Arvi Region of Wardha District, Maharashtra. Research J. Engineering and Tech. 2017; 8(2): 125-127.
  • D. Kannan, N. Mani. Chemical variability of groundwater samples collected from Needamangalam Region, Thiruvarur District, Tamil Nadu (India). Asian J. Research Chem. 2019; 12(5):248-252. 7. Pratima Rani Dwivedi, M. R. Augur. Physico Chemical Analysis of Ground Water in Chirimiri Area of Korea District, Chhattisgarh. Research J. Engineering and Tech. 2014; 5(1): 38-41.
  • R. Pradeep Kumar, Vijayalakshmi B. Assessment of Fluoride Concentration in Ground Water in Madurai District, Tamil Nadu, India. Research J. Pharm. and Tech. 2017; 10(1): 309-310.
  • Milan Hait, Leena Sahu, Kavita Nag. Hydro Chemical Assessment of Ground and Surface Water Bodies in and Around of NTPC Seepat, Bilaspur (C.G.) India. Asian J. Pharm. Ana.2013; 3(3): 79-82.
  • Madu Anthony Joseph Chinenyeze, Otuokere Ifeanyi Edozie. Quantitative Risk Assessment of Groundwater pH during Seismic Exploration in Sagbama, Niger Delta, Nigeria. Int. J. Tech. 2017; 7(1): 01-06
  • Giriyappanavar B.S and Patil, R.R Application of CCME WQI in Assessing Water Quality for Fort Lake of Belgaum, Karnataka. Indian Journal of Applied Research. 2013; .3(04): 32-33.
  • Mahagamagea M.G.Y.L., Pathmalal M Managea. Water Quality Index (CCME-WQI) Based Assessment Study of Water Quality in Kelani River Basin, Sri Lanka. The 1st Environment and Natural Resources International Conference. Thailand, November 2014; 199-204.
  • Venkatramanan S, Chung. S.Y., Ramkumar T, Rajesh R and Gnanachandrasamy G. Assessment of groundwater quality using GIS and CCME-WQI techniques: a case study of Thiruthuraipoondi city in Cauvery deltaic region, Tamil Nadu, India. Desalination and Water Treatment, 2016; 57: 12058–12073.
  • Wagh V.M, Shrikant Mukate, Dipak Panaskar, Uday Sahu Manesh Aamalawar and Aniket Muley Yoges. Development of CCME WQI model for the groundwater appraisal for drinking in Basaltic terrain of Kadava River basin, Nashik, India. INDIAN J. MAR. SCI., 2019; 48 (12): 1933-1940.
  • Wagh V.M, Panaskar,.D.B , Muley A.Aand Mukate S.V . Groundwater suitability evaluation by CCME-WQI model for Kadava River Basin, Nashik, Maharashtra, India. Modeling Earth Systems and Environment. 2017; 3: 557-565.
  • APHA/AWWA/WEF (1998). Standard methods for the Examination of water and waste water. American Public Health Association/ American water works association, Water Environment Federation, Washington DC, USA, 20 th edition. 235-237.
  • 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, Canadian Council of Ministers of the environment winnipeg, MB, Canada
  • Tiwari, T.N.., & Mishra, M.A. A Preliminary assessment of water quality index of major Indian rivers. Indian Journal of Environmental Protection, 1985; 5: 276-279.
  • Horton, R.K. An index number system for rating water quality. J. Water Pollution Cont. Fed., 1965; 37(3): 300-305 .
  • Sonika Sarma and R.C. Chhipa. Interpretation of Groundwater quality parameter for selected area of Jaipur using regression and correlation analysis. Journal of Scientific and Industrial Research. 2013;72: 781-783.
  • Sharif M.K. Saleh, Sanaa H.G. Al-Alaiy and Bar Abdul-Razzak. Application of water quality index to assessment of groundwater quality. Univ. Aden J. Nat. and Appl. Sc. 2017; 21(1): 127-134.

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  • CCME-WQI and TM-WQI based Assessment for Groundwater Quality in Garividi region of Vizianagaram District, Andhra Pradesh, India

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Authors

G. Rupakumari
Research Scholar, Department of Civil Engineering, AU College of Engineering (A), Andhra University, Visakhapatnam - 530003, Andhra Pradesh, India
G. V. R. Srinivasa Rao
Faculty, Department of Civil Engineering, AU College of Engineering (A), Andhra University, Visakhapatnam - 530003, Andhra Pradesh, India
B. Kalyanaramu
Faculty, Department of Chemistry, Visakha Government Degree College (W), Visakhapatnam, A.P., India

Abstract


The Canadian Council of Ministers of the Environment method (CCME) and the Logarithmic Aggregation method proposed by Tiwari and Mishra (TM) were used to assess the groundwater quality for drinking in Garividi region (Gurla, Gajapatinagaram, Dattirajeru, Merakamuidam, Cheepurupalli and Garividi mandals) which occupy some central part of Vizianagaram district of Andhra Pradesh, India. The groundwater samples were collected during every month from November 2018 to October 2019 from 38 bore wells of selected sampling locations in the study area. Fourteen parameters such as pH, EC, TDS, TH, TA, Ca2+ , Mg2+ , Na+ , CO3 2- , HCO3- , Cl-, SO42-, NO3-, F- of samples were analyzed using standard laboratory procedures. This paper describes the assessment of ground water quality for drinking purposes using CCME and TM water quality index methods and water quality parameters variation with regression correlation analysis during Post and Pre monsoons and monsoon. From CCME-WQI analysis, it is observed that quality of about 2.63% of the water samples is Excellent, about 28.95% of the water samples is Good, about 52.63% of the water samples is Fair, about 5.26% is Marginal and remaining 10.53% is Poor and from TM-WQI analysis, it is observed that quality of about 2.63% of the water samples is Excellent, quality of about 42.1% of the water samples is good, about 39.5% is Medium, about 13.2% is poor and remaining 2.63% is unsuitable for drinking purpose in the study area. From the correlation analysis, it is observed that EC and TDS are the important parameters, as they are significantly correlated with other parameters.

Keywords


Analysis, Correlation matrix, CCME-WQI, Logarithmic Aggregation, TM-WQI.

References