1. M. Ghodbane, A. Boudoukha, L. Benaabidate, Hydrochemical and statistical characterization of groundwater in the Chemora area, Northeastern Algeria, Desal. Water Treat., 57 (2015) 1–11.
  2. S.K. Frape, P. Fritz, R.H. McNutt, Water-rock interaction and chemistry of groundwaters from the Canadian Shield, Geochim. Cosmochim. Acta, 48 (1984) 1617–1627.
  3. C. Fehdi, A. Boudoukha, A. Rouabhia, E. Salameh, Origin of groundwater salinity in the Morsott-El Aouinet basin, Northeastern Algeria: hydrochemical and environmental isotopes approaches, Desal. Water Treat., 36 (2011) 1–12.
  4. S.S.D. Foster, Groundwater conditions and problems characteristic of the humid tropics, Hydrol. Warm Humid Reg., 216 (1993) 433–449.
  5. S. Ouali, A. Bouguern, Characterization study of the Albian reservoir of southern Algeria, Rev. Energ. Renouvelables, 19 (2016) 525–531.
  6. N. Somaratne, S. Mustafa, J. Lawson, Use of hydrochemistry, stable isotope, radiocarbon, 222Rn and terrigenic 4He to study the geochemical processes and the mode of vertical leakage to the Gambier Basin tertiary confined sand aquifer south Australia, Water, 8 (2016) 1–23.
  7. G.M. Banwell, R.R. Parizek, Helium 4 and Radon 222 concentrations in groundwater and soil gas indicators of zones of fracture concentrations in unexposed rock, J. Geophys. Res., 91 (1988) 355–366.
  8. Z. Pengpeng, L. Ming, L. Yaodong, Hydrochemistry and isotope hydrology for groundwater sustainability of the coastal multilayered aquifer system (Zhanjiang, China), Geofluids, 2 (2017) 1–19.
  9. M.E. Zabala, M. Manzano, L. Vives, The origin of groundwater composition in the Pampeano Aquifer underlying the Del Azul Creek basin, Argentina, Sci. Total Environ., 518 (2015) 168–188.
  10. L. André, M. Franceschi, P. Pouchan, O. Atteia, Using geochemical data and modelling to enhance the understanding of groundwater flow in a regional deep aquifer, Aquitaine Basin, south-west of France, J. Hydrol., 1 (2005) 40–62.
  11. F.J. Alcalá, E. Custodio, Using the Cl/Br ratio as a tracer to identify the origin of salinity in aquifers in Spain and Portugal, J. Hydrol., 359 (2008) 189–207.
  12. K. Rina, P.S. Datta, C.K. Singh, S. Mukherjee, Characterization and evaluation of processes governing the groundwater quality in parts of the Sabarmati basin, Gujarat using hydrochemistry integrated with GIS, Hydrol. Processes, 26 (2012) 1538–1551.
  13. S. Santoni, F. Huneau, E. Garel, Strontium isotopes as tracers of water-rocks interactions, mixing processes and residence time indicator of groundwater within the granitecarbonate coastal aquifer of Bonifacio (Corsica, France), Sci. Total Environ., 573 (2016) 233–246.
  14. A. Saleh, F. Al-Ruwaih, M. Shehata, Hydrogeochemical processes operating within the main aquifers of Kuwait, J. Arid Environ., 42 (1999) 195–209.
  15. G. Thyne, C. Güler, E. Poeter, Sequential analysis of hydrochemical data for watershed characterization, Ground Water, 42 (2004) 711–723.
  16. M. Stamboul, Contribution to the Hydrogeological Study of the Saharan Atlas, the Example of Jebel Amour, Doctorate Thesis, University of Oran, Algeria, 2005, p. 329.
  17. A. Khedidja, A. Boudoukha, Characterization of salinity in the water table in the upper valley of Wadi Rhumel (East of Algeria), Desal. Water Treat., 56 (2015) 629–637.
  18. N. Brinis, A. Boudoukha, F. Djaiz, Study of groundwater salinity in arid areas. Case of the aquifer El-Outaya, Northwest region of Biskra, Algeria, Int. J. Environ. Water, 3 (2014) 44–51.
  19. J. Rodier, B. Legube, N. Merlet and Collaborators, Water Analysis, 9th ed., Dunod, Paris, 2009, p. 1511.
  20. A. Khedidja, B. Boudoukha, Study of the physical and chemical qualities of surface water and groundwater in the upper valley of wadi Rhumel (Eastern Algeria), Arabian J. Geosci.,11 (2018) 1–8.
  21. A. Setianto, T. Triandini, Comparison of kriging and inverse distance weighted (IDW) interpolation methods in lineament extraction and analysis, J. Appl. Geol., 5 (2013) 21–29.
  22. F.H. Azaza, M. Ketata, R. Bouhlila, M. Gueddari, L. Riberio, Hydrogeochemical characteristics and assessment of drinking water quality in Zeuss-Koutine aquifer, southeastern Tunisia, Environ. Monit. Assess., 174 (2011) 283–298.
  23. M.N. Teli, A.N.A. Kuchhay, M.A. Rather, U.F. Ahmad, M.A. Malla, M.A. Dad, Spatial interpolation technique for groundwater quality assessment of district Anantnag J&K, Int. J. Eng. Res. Dev., 10 (2014) 55–66.
  24. S. Chidambaram, U. Karmegam, P. Sasidhar, M.V. Prasanna, R. Manivannan, S. Arunachalam, S. Manikandan, P. Anandhan, Significance of saturation index of certain clay minerals in shallow coastal groundwater, in and around Kalpakkam, Tamil Nadu, India, J. Earth Syst. Sci., 120 (2011) 897–909.
  25. M. Haile-Meskale, An overview of saturation state of groundwater with respect to some common minerals in south central Ontario, Int. J. Sci. Basic Appl. Res., 36 (2017) 32–47.
  26. World Health Organization (WHO), Guidelines for Drinking- Water Quality, Vol. 1, 3rd ed., World Health Organization, Geneva, 2004.