Abstract
Geoelectrical resistivity method involving vertical electrical sounding (VES) was carried out in a sedimentary environment to determine the suitability of the method for sub-surface groundwater investigations. The EC and TDS hydrochemical data in the study area clearly showed the influence of seawater intrusion. The abundance of the major cations and anions are in the following order, Na+ > Ca2+ > Mg 2+ > K+ = Cl- > HCO3 - > SO4 2- > CO3 > NO3 > PO4. Results suggest that the groundwater in this study area is very hard and alkaline in nature. As indicated by Piper trilinear diagram, NaCl and Ca2+ - Mg2+–Cl- - SO4 2- facies are the dominant hydrochemical facies in the groundwater of Pearl city. The VES method by Schlamberger electrode array was applied in 12 locations, which is expected to represent the whole area. The resistivity meter (aquameter CRM 5OO) was used to collect the VES data by employing a Schlumberger electrode configuration, with half current electrode spacing (AB/2) ranging from 2 to 180 m and the potential electrode (MN) from 1 to 50 m. The resistivity data is then interpreted by WINSEV 1-D inversion program geoelectric software to entirely describe the aquifer system as well as the occurrence of groundwater. The outputs of sub-surface layers with resistivities and thickness presented in contour maps and 2-D views by using SURFER software were created. Accordingly, three zones with different resistivity values were detected, corresponding to three different formations: (1) a transition zone of sandy soil (aeolian deposits) thick formation, (2) strata’s saturated with fresh groundwater in the east disturbed by the presence of sandy shell limestone horizons, (3) a water-bearing formation in the west containing low saltwater horizons. The bedrock is encountered at an average depth of 95m. This study indicates that the groundwater reservoirs are mainly confined to the alluvial aquifer.
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AL-GARNI, M.A., HASSANEIN, H. and GOBASHY, M. (2006) Geophysical investigation of groundwater in Wadi Lusab, Haddat Ash Sham Area, Makkah Al-Mukarramah. Arab Gulf Jour. Scientific Res., v.24(2), pp.83–93.
APHA (1995) Standard methods for the examination of water and wastewater, 19th edn. American Public Health Association, New York, 85p.
BATTACHARYA, P.K. and PATRA, S. (1969) Direct current geoelectric sounding, Elsevier, Amsterdam, 30p.
CHIDAMBARAM, S., SENTHIL KUMAR, G., PRASANNA, M.V., JOHN PETER, A., RAMANATHAN, A.L. and SRINIVASAMOORTHY, K. (2009) A study on the hydrogeology and hydrogeochemistry of groundwater from different depths in a coastal aquifer: annamalai Nagar, Tamil Nadu, India. Environ Geol., v.57, pp.59–73.
CHOUDHURY, K., SAHA, D.K. and CHAKRABORTY, P. (2001) Geophysical study for saline water intrusion in a coastal alluvial terrain. Jour. Appld. Geophysics., v.46, pp.189–200.
DEVI, P.D.S., SRINIVASULU, S. and RAJU, K.K. (2001) Delineation of groundwater potential zones and electrical resistivity studies for groundwater exploration. Environ. Geol., v.40(10), pp.1252–1264.
KOEFOED, O. (1979) Geosounding Principle, Volume 1. Amsterdam: Elsevier 276p.
KUMAR, A.R. and RIYAZUDDIN, P. (2008) Application of chemometric techniques in the assessment of groundwater pollution in a suburban area of Chennai city, India. Curr. Sci., v.94(8), pp.1012–1022.
LOKE, M.H. and BARKER, R.D. (1996) Practical techniques for 3D resistivity surveys and data inversion. Geophys Prospect., v.44, pp.499–523.
MAJUMDAR, R.K., SRINIVASULU, S. and RAJU, K.K. (2000) Geoelectric investigations in Bakreswar geothermal area, West Bengal. India Jour.Appld. Geophys., v.45, pp.187–202.
MONDAL, N.C., SINGH, V.P., SINGH, S. and SINGH, V.S. (2011a) Hydrochemical characteristic of coastal aquifer from Tuticorin, Tamil Nadu, India. Environ. Monit. Assess., v.175(1–4), pp.531–550.
MONDAL, N.C. and SINGH, V.P. (2011b) Hydrochemical analysis of salinization for a tannery belt in Southern India. Jour. Hydrology, v.405(2–3), pp.235–247.
MUTHURAJ, D., SRINIVAS, Y. and CHANDRASEKAR, N. (2010) Delineation of Groundwater Potential areas — a Case study from Tirunelveli District, TamilNadu, India. International Jour. Appld. Environ. Sci., v.5, pp.49–56.
OLURONFEMI, M.O. and FASUYI, S.A. (1993) Aquifer types and Geoelectrical hydrogeologic Characteristics of Central Basement Terrain of Nigeria. Jour. African Earth Sci., v.16, pp.309–317.
OCHUKO, A. (2011) Underground water exploration of Oleh, Nigeria using the electrical resistivity method. Scientific Research and Essays., v.6(10), pp.4295–4300.
PIDLISECKY, A., HABER, E. and KNIGHT, R. (2007) RESINVM3D: a 3D resistivity inversion package. Geophysics., v.72(2), pp.H1–H10. doi:10.1190/1.2402499.
PIPER, A.M. (1994) A graphical procedure in the geochemical interpretation of water analysis. Am Geophys Union Trans., v.25, pp.914–923.
RAJU, N.J. and REDDY, T.V.K. (1998) Fracture pattern and electrical resistivity studies for groundwater exploration. Environ. Geol. Soc. India., v.37, pp.211–220.
SINGH, S.B., STEPHEN, J., SRINIVAS, Y., SINGH, U.K. and SINGH, K.P. (2002) An integrated Geophysical approach for ground water prospecting: a Case study from Tamil Nadu. Jour. Geol. Soc. India, v.59, pp.147–158.
SELVAM, S., SESHUNARAYANA, T., MANIMARAN, G., SIVASUBRAMANIAN, P. and MANIMARAN, D. (2010) Groundwater Investigation using Geoelectrical Survey:A case study from Kanukunta Village, Andhra Pradesh, India. Outreach., v.IV, pp.59–62
SELVAM, S. and SIVASUBRAMANIAN, P. (2012a) Groundwater potential zone identification using geoelectrical survey: a case study from Medak district, Andhra Pradesh, India. Internat. Jour Geomatics Geosci., v.3(1), pp.55–62.
SELVAM, S. (2012b) Use of remote sensing and GIS techniques for land use and land cover mapping of Tuticorin Coast, Tamil Nadu. Univ.Jour. Environ. Res. Tech., v.2(4), pp.33–241.
SELVAM, S. (2012c) Groundwater Subsurface investigations in Pachipenta Mandal, Andhra Pradesh using Vertical Electrical Sounding resistivity surveys. OnLine Jour. Earth Sci., v.6(1), pp.1–5.
SELVAM, S., IRUTHAYA JEBA DHANA MALA, R. and MUTHUKAKSHMI, V. (2013a) A hydrochemical analysis and evaluation of groundwater quality index in Thoothukudi district, Tamilnadu, South India. Internat. Jour. Adv.Engg. Appl., v.2(3), pp.25–37.
SELVAM, S., MANIMARAN, G. and SIVASUBRAMANIAN, P. (2013b) Cumulative Effects of Septic System Disposal and Evolution of Nitrate Contamination Impact on Coastal Groundwater in Tuticorin, South Tamilnadu, India. Res. Jour. Pharmaceutical, Biological and Chemical Sci., v.4(4), pp.1207–1218.
SELVAM, S., MANIMARAN, G., SIVASUBRAMANIAN, P., BALASUBRAMANIAN, N. and SESHUNARAYANA, T. (2014a) GIS-based evaluation of Water Quality Index of groundwater resources around Tuticorin coastal city, south India. Environ Earth Sci., v.71, pp.2847–2867.
SELVAM, S., MANIMARAN, G., SIVASUBRAMANIAN, P. and SESHUNARAYANA, T. (2014b) Geoenvironmental Resource Assessment Using Remote Sensing and GIS: A case study from southern coastal region. Res. Jour. Recent Sci., v.3(1), pp.108–115.
SELVAM, S., ANTONY RAVINDARAN, A., RAJAMANICKAM, M. and SRIDHARAN, M. (2014c) Microbial contamination in the sediments and groundwater of Tuticorin Corporation, South India using GIS. Internat. Jour. Pharmacy and Pharmaceutical Sci., v.6(4), pp.337–340.
SELVAM, S., MAGESH, N.S., CHIDAMBARAM, S., RAJAMANICKAM, M. and SASHIKUMAR, M.C. (2015a) A GIS based identification of groundwater recharge potential zones using RS and IFtechnique: a case study in Ottapidaram taluk, Tuticorin district Tamil Nadu. Environ Earth Sci., v.73, pp.3785–3799.
SELVAM, S., VENKATRAMANAN, S. and SINGARAJA, C. (2015b) A GISbased assessment of water quality pollution indices for heavy metal contamination in Tuticorin corporation, Tamil Nadu, India. Arab J Geosci., Doi: 10.1007/s12517-015-1968-3.
SELVAM, S., FAROOQ A. DAR., MAGESH, N. S., SINGARAJAA, C., VENKATRAMANAN, S. and CHUNG, S.Y. (2015c) Application of remote sensing and GIS for delineating groundwater recharge potential zones of Kovilpatti Municipality, Tamil Nadu using IF technique. Earth Sci Inform., DOI 10.1007/s12145-015-0242-2.
SON, Y. (2011) Assessment of concentration in contaminated soil by potentially toxic elements using electrical properties. Environmental Monitoring and Assessment., v.176, pp.1–11.
SPITZER, K. (1998) The three-dimensional DC sensitivity for surface and subsurface sources. Geophys. Jour. Internat., v.134, pp.736–746.
SRINIVASAMOORTHY, K., NANTHAKUMAR, C., VASANTHAVIGAR, M., VIJAYARAGAVAN, K., RAJIV GANTHI, R. and CHIDAMBARAM, S. (2011) Groundwater quality assessment from a hard rock terrain, Salem district of Tamilnadu, India. Arab Jour. Geosci., v.4, pp.91–102.
TELFORD, W.M., GELDART, L.P. and SHERIFF, R.E. (1990) Applied Geophysics. (Second Edition). Cambridge University Press: Cambridge, UK, 33p.
TSOURLOS, P.I. and OGILVY, R.D. (1999) An algorithm for the 3-D inversion of tomographic resistivity and induced polarization data: preliminary results. Jour. Balkan Geophys. Soc., v.2(2), pp.30–45.
WHO (2004) Guidelines for drinking water quality, vol 1. Recommendations, 3rd edn. WHO, Geneva, 515p.
YADAV, G.S. and ABOLFAZLI, H. (1998) Geoelectric soundings and their relationship to hydraulic parameters in semiarid regions of Jalore, northwestern India. Jour. Appld. Geophys., v.39, pp.35–51.
YI, M.J., KIM, J.H., SONG,Y., CHO, S.J, CHUNG, S.H. and SUH, J.H. (2001) Three dimensional imaging of subsurface structures using resistivity data. Geophys Prospect., v.49, pp.483–497.
ZOHDY, A.A.R. (1989) A new method for the automatic interpretation of Schlumberger and Wenner sounding curves. Geophysics, v.54, pp.245–253.
ZHANG, J., MACKIE, R.L. and MADDEN, T.R. (1995) 3-D resistivity forward modeling and inversion using conjugate gradients. Geophys., v.60(5), pp.1313–1325.
ZHAO, S.K. and YEDLIN, M.J. (1996) Some refinements on the finitedifference method for 3-D dc resistivity modeling. Geophys., v.61, pp.1301–1307.
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Selvam, S. 1D geoelectrical resistivity survey for groundwater studies in coastal area: A case study from Pearl city, Tamil Nadu. J Geol Soc India 87, 169–178 (2016). https://doi.org/10.1007/s12594-016-0385-x
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DOI: https://doi.org/10.1007/s12594-016-0385-x