References

1. C. Sabarathinam, H. Bhandary, A. Al-Khalid, Tracing the evolution of acidic hypersaline coastal groundwater in Kuwait, Arabian J. Geosci., 13 (2020) 1146, doi: 10.1007/s12517-020-06116-w.
2. C. Sabarathinam, H. Bhandary, A. Al-Khalid, A geochemical analogy between the metal sources in Kuwait Bay and Territorial Sea Water of Kuwait, Environ. Monit. Assess., 191 (2019) 142, doi: 10.1007/s10661-019-7219-4.
3. S. Arunachalam, K. Maharani, S. Chidambaram, M.V. Prasanna, M. Manivel, C. Thivya, A study on the Land use pattern change along the coastal region of Nagapattinam, Tamil Nadu, Int. J. Geomatics Geosci., 1 (2010) 700–720.
4. R. Thilagavathi, S. Chidambaram, C. Thivya, M.V. Prasanna, T. Keesari, S. Pethaperumal, Assessment of groundwater chemistry in layered coastal aquifers using multivariate statistical analysis, Sustainable Water Resour. Manage., 3 (2017) 55–69.
5. S. Senthilkumar, B. Gowtham, M. Sundararajan, S. Chidambaram, J. Francis Lawrence, M.V. Prasanna, Impact of landuse on the groundwater quality along coastal aquifer of Thiruvallur District, South India, Sustainable Water Resour. Manage., 4 (2017) 849–873.
6. C. Singaraja, S. Chidambaram, P. Anandhan, K. Tariq Abdul Kareem, Groundwater contamination due to salt-panning activity and seawater intrusion at Tuticorin Coastal Zone, Southern Tamil Nadu, India, Int. J. Adv. Geosci., 2 (2014) 133, doi: 10.14419/ijag.v2i2.3501.
7. S. Chidambaram, Al Ramanathan, P. Anandhan, K. Srinivasamoorthy, S. Vasudevan, M.V. Prasanna, A study of the coastal groundwaters from Puduchattiram to Coleroon, Tamilnadu, India, Int. Ecol. Environ. Sci., 31 (2005) 299–306.
8. P. Krishnakumar, C. Lakshumanan, V. Pradeep Kishore, M. Sundararajan, G. Santhiya, S. Chidambaram, Assessment of groundwater quality in and around Vedaraniyam, South India, Environ. Earth Sci., 71 (2013) 2211–2225.
9. H. Bhandary, C. Sabarathinam, Estimation of submarine groundwater discharge and nutrient loading using radium isotopes quartet in Kuwait, Arabian J. Geosci., 13 (2020) 798, doi: 10.1007/s12517-020-05754-4.
10. S. Chidambaram, M. Nepolian, A.L. Ramanathan, J. Sarathidasan, R. Thilagavathi, C. Thivya, M.V. Prasanna,
    K. Srinivasamoorthy, N. Jacob, H. Mohokar, An attempt to identify and estimate the subsurface groundwater discharge in the South East Coast of India, Int. J. Sustainable Built Environ., 6 (2017) 421–433.
11. C. Singaraja, S. Chidambaram, N. Jacob, A study on the influence of tides on the water table conditions of the shallow coastal aquifers, Appl. Water Sci., 8 (2018), doi: 10.1007/s13201-018-0654-5.
12. S. Chidambaram, Rakesh, K.A. Ali, N. Ganesh, M. Nepolian, U. Vasudevan, R. Thilagavathi, AL. Ramanathan,
    R. Shyam, V.S. Aditya, Study on the hourly dynamics of the coastal surface water flux along the Vellar river mouth, Tamilnadu coast – a geochemical approach, J. Appl. Geochem., 19 (2017b) 451–456.
13. M.V. Prasanna, S. Chidambaram, T.V. Gireesh, T.V. Jabir Ali, A study on hydrochemical characteristics of surface and subsurface water in and around perumal lake, Cuddalore district, Tamil Nadu, South India, Environ. Earth Sci., 63 (2010) 31–47.
14. F.M. Al-Ruwaih, M. Shehata, Hydrochemical processes and environmental isotopic study of groundwater in Kuwait, Water Int., 29 (2004) 158–166.
15. R. Thilagavathi, S. Chidambaram, C. Thivya, M.V. Prasanna, C. Singaraja, K. Tirumalesh, S. Pethaperumal, Delineation of natural and anthropogenic process controlling hydrogeochemistry of layered aquifer sequence, Proc. Natl. Acad. Sci. U.S.A., 84 (2014) 95–108.
16. N. Sivakarun, P. Udayaganesan, S. Chidambaram, S. Venkatramanan, M.V. Prasanna, K. Pradeep, B. Panda, Factors determining the hydrogeochemical processes occurring in shallow groundwater of coastal alluvial aquifer, India, Geochemistry, 80 (2020) 125623, doi: 10.1016/j. chemer.2020.125623.
17. M. Al-Rashed, S. Al-Ghawas, Optimum Use of Ground Water for Sustainable Irrigation in Al-Abdally Farms, Kuwait Institute for Scientific Research Report, Final Report, 1999.
18. A. Akber, A. Mukhopadhyay, M. Al-Senafy, A. Al-Haddad, E. Al-Awadi, H. Al-Qallaf, Technical Feasibility of
    Long-Term Wastewater Treatment Using a Natural Aquifer, Kuwait Institute for Scientific Research Report, 2006.
19. A. Mukhopadhyay, A. Al-Haddad, M. Al-Otaibi, M. Al-Senafy, Occurrence of hydrogen sulfide in the ground water of Kuwait, Environ. Geol., 52 (2007) 1151–1161.
20. D.R. Samayamanthula, C. Sabarathinam, N.A. Alayyadhi, Trace elements and their variation with pH in rain water in arid environment, Arch. Environ. Contam. Toxicol., 80 (2020) 331–349.
21. R.M. Garrels, C.L. Christ, Solutions, Minerals, and Equilibria, Harper and Rowe, New York, 1965, 450 pp.
22. J.I. Drever, The Geochemistry of Natural Waters, 2nd ed., Prentice-Hall, Englewood Cliffs, N.J., 1988, p. 437.
23. C. Sabarathinam, H. Bhandary, K. Hadi, CHIDAM – A software for chemical interpretation of the dissolved ions in aqueous media, Groundwater Sustainable Dev., 13 (2020) 100496, doi: 10.1016/j.gsd.2020.100496.
24. S. Chidambaram, AL. Ramanathan, K. Srinivasamoorthy, P. Anandhan, WATCLAST — A Computer Program for Hydrogeochemical Studies, Recent Trends in Hydrogeochemistry (Case Studies From Surface and Subsurface Waters of Selected Countries), Capital Publishing Company, New Delhi, 2003.
25. H. Bhandary, C. Sabarathinam, A. Al-Khalid, Occurrence of hypersaline groundwater along the coastal aquifers of Kuwait, Desalination, 436 (2018) 15–27.
26. M. Al-Senafy, K. Al-Fahad, Petrography of Calcretes and Their Effects on the Hydrology of Kuwait Group Aquifer, Proceedings First International Conference on Geotechnical, Geoenvironmental Engineering and Management in Arid Lands, Al-Ain, United Arab Emirates, 2000, pp. 481–484.
27. S.M. Abusada, The Essentials of Groundwater Resources of Kuwait, Kuwait Institute for Scientific Research, Report No. KISR, 1988, p. 2665.
28. J. Al-Sulaimi, A. Mukhopadhyay, An overview of the surface and near-surface geology, geomorphology and natural resources of Kuwait, Earth-Sci. Rev., 50 (2000) 227–267.
29. D.L. Parkhurst, C.A.J. Appelo, Description of Input and Examples for PHREEQC Version 3–A Computer Program for Speciation, Batch-Reaction, One-Dimensional Transport, and Inverse Geochemical Calculations, U.S. Geological Survey Techniques and Methods, Book 6, Chap. A43, 497 p. Available at: https://pubs.usgs.gov/tm/06/a43/
30. K.B. Krauskopf, Introduction to Geochemistry, 2nd ed., McGraw – Hill International Services, Singapore, 1979, 617 p.
31. R.M. Garrels, FT. Mackenzie, Origin of the chemical compositions of some springs and Lakes, Adv. Chem., 67 (1967) 222–242.
32. T.M.L. Wigley, The incongruent solution of dolomite, Geochim. Cosmochim. Acta, 37 (1973) 1397–1402.
33. S. Chidambaram, M.V. Prasanna, U. Karmegam, C. Singaraja, S. Pethaperumal, R. Manivannan, P. Anandhan,
    K. Tirumalesh, Significance of pCO2 values in determining carbonate chemistry in groundwater of Pondicherry Region, India, Front. Earth Sci., 5 (2011) 197–206.
34. J. D’ANs, D. Bredtschneider, H. Eick, H. Freund, Untersuchugen uber die calcium sulfate, Kali Steinsalz,
    1 (1955) 17–38.
35. G.J.F. MacDonald, Anhydrite-gypsum equilibrium relations, Am. J. Sci., 251 (1953) 884–898.
36. T. Torium, T. Kuwahara, R. Hara, On the Calcium Sulphate in Seawater II. Solubilities Calcium Sulphate Hemihydrates in Seawater of Various Concentration at 65–150, Technol. Rep. Tohok Imp Univ., 1938,
    pp. 560–571.
37. A.E. Hill, The transition temperature of gypsum to anhydrite, J. Am. Chem. Soc., 59 (1937) 2242–2244.
38. R.F. Conley, W.M. Bundy, Mechanism of gypsification, Geochim. Cosmochim. Acta, 15 (1958) 57–65.
39. J. D’ANs, Hofer, Uber das System CaSO₄-H₃PO₄-H₂O, Ang. Chem., 50 (1937) 101–104.
40. E.-A. Zen, Solubility measurements in the system CaSO₄-NaCl-H₂O at 35°, 50°, and 70°C and one atmosphere pressure, J. Pet., 6 (1965) 124–164.
41. W. Stumm, J.J. Morgan, Aquatic Chemistry, Wiley Interscience, New York, 1996, pp. 349–424.
42. K. Pradeep, M. Nepolian, P. Anandhan, Chandran, R. Kaviyarasan, M.V. Prasanna, S. Chidambaram, A study on variation in dissolved silica concentration in groundwater of hard rock aquifers in southeast coast of India, IOP Conf. Ser.: Mater. Sci. Eng., 121 (2016) 012008, doi: 10.1088/1757-899x/121/1/012008.