References

  1. F. Hamzaoui-Azaza, Geochemistry and Modeling of Zeuss-Koutine, Triassic and Miocene aquifers Jorf-Jerba-Zarzis, Ph.D. Thesis, Faculty of Sciences of Tunis, University of Tunis, El Manar 2011, 262 p
  2. I. Hassen, F. Hamzaoui-Azaza, R. Bouhlila, Application of multivariate statistical analysis and hydrochemical and isotopic investigations for evaluation of groundwater quality and its suitability for drinking and agriculture purposes: case of Oum Ali-Thelepte aquifer, Central Tunisia, Environ. Monit. Assess., 188 (2016) 135.
  3. N. Ghouili, F. Hamzaoui-Azaza, M. Zammouri, M.F. Zaghrarni, F. Jarraya Horriche, M.T.C. de Melo, Groundwater quality assessment of the Takelsa phreatic aquifer (Northeastern Tunisia) using geochemical and statistical methods: implications for aquifer management and end-users, Environ. Sci. Pollut. Res., 25 (2018) 36306–36327.
  4. M. Ameur, F. Hamzaoui-Azaza, L. Ben Cheikha, M. Gueddari, Geochemistry of high concentrations of fluoride in groundwater at oued rmel aquifer (North-Eastern Tunisia), and risks to human health from exposure through drinking water, Environ. Earth Sci., 78 (2019) 184.
  5. F. Hamzaoui-Azaza, M. Ameur, R. Bouhlila, M. Gueddari, Geochemical characterization of groundwater in a Miocene aquifer, southeastern Tunisia, Environ. Eng. Geosci., 18 (2012) 159–174.
  6. M. Ameur, F. Hamzaoui-Azaza, L. Ben Cheikha, T. Ahmed, M. Gueddari, A GIS mapping assessment of the suitability of the Oued Rmel aquifer for irrigation in the Zaghouan district, Environ. Earth Sci., 77 (2018) 292.
  7. A.A.A. Moneim, J.P. Fernández-Álvarez, E.M. Abu El Ella, A.M. Masoud, Groundwater management at west El-Minia Desert Area, Egypt using numerical modeling, J. Geosci. Environ. Prot., 4 (2016) 66–76.
  8. V. Varalakshmi, B. Venkateswara Rao, L. Surinaidu, M. Tejaswini, Groundwater flow modeling of a hard rock aquifer: case study, J. Hydrol. Eng., 19 (2014) 877–886.
  9. E.C. Dogrul, C.F. Brush, T.N. Kadir, Groundwater modeling in support of water resources management and planning under complex climate, regulatory, and economic stresses, Water, 8 (2016) 592.
  10. J. Nyende, V. Tg, Conceptual and numerical model development for groundwater resources management in a regolith-fractured basement aquifer system, J. Earth Sci. Clim. Change, 4 (2013) 156.
  11. G. Lacombe, C. Leduc, B. Cappelaere, M. Ayachi, M. Oi, M. Kefi, Spatial redistribution of water resources in a Tunisian semi-arid catchment subject to conservation works., (2008) 10 p, Available at: http://www.documentation.ird.fr/hor/fdi:010046580.
  12. R. Trabelsi, Modélisation hydrogéologique et transport des radionucléides dans la nappe côtière de Skhira au niveau de la centrale nucléaire projetée sur le site, Mémoire de Mastère, ENIT, Tunis, 2015, 139 p.
  13. ONM, Office National des Mines, Contrat ONM/STEG N°S0102002, Rapport de la phase IV, 2013, 433 p.
  14. SGF-INC, Etude des nappes aquifères de Sfax, 2005, 82 p.
  15. C. Zheng, M.C. Hill, P.A. Hsieh, MODFLOW-2000, the U.S. geological survey modular groundwater model-user guide to the lmt6 package, the linkage with mt3dms for multi-species mass transport modeling, U.S. Geological Survey Open-File Report, 2001, 01–82, 44.
  16. I. Hassen, R. Bouhlila, F. Hamzaoui-Azaza, R. Khanfir, Hydrogeological Modeling of Kasserine Aquifer System, Central Tunisia, 10th International Hydrogeological Congress of Greece, Thessaloniki, 2014, pp. 223–230.
  17. S. Massuel, Modélisation hydrodynamique de la nappe phréatique quaternaire du bassin du lac Tchad, Mém. Diploma Thesis, Université de Montpellier II, 2001, 85 p.
  18. A.A. Ahmed, Using lithologic modeling techniques for aquifer characterization and groundwater flow modeling of the Sohag area, Egypt. Hydrogeol. J., 17 (2009) 1189–1201.
  19. M.G. McDonald, A.W. Harbaugh, A Modular Three-Dimensional Finite-Difference Ground-Water Flow Model, U.S. Geological Survey, Techniques of Water Resources Investigations, Book 6, Chapter Al, 1988, 586 p.
  20. M. Besbes, Hydrogéologie de l’ingénieur, Centre de Publication Universitaire, 2010, 350 p.
  21. C. Thierion, Modélisation hydrogéologique des aquifères du Bajocien – Bathonien dans le secteur des Bocages Normands, Mém. Master, Université Pierre et Marie Curie, École des Mines de Paris & École Nationale du Génie Rural des Eaux et des Forêts, 2007, 48 p.
  22. A.W. Harbaugh, M.G. McDonald, User’s Documentation for MODFLOW-96, An Update to the U.S. Geological Survey Modular Finite-Difference Ground-Water Flow Model, U.S. Geological Survey Open-File Report, 1996, 96–485, 56.
  23. D. Johan, Modélisation deEaux souterraines, Programme de Valorisation des Ressources en Eau de l’Ouest de Burkina Fasso (VREO), D.G.AE.P., Rapp. Int, 2006, 17 p.
  24. M. Ameur, Geochemical Study and Hydrogeological Modeling of the Sminja-Oued Rmel Aquifer System in the Zaghouan Region, Ph.D. Thesis, Faculty of Sciences of Tunis, University of Tunis, El Manar, 2016, 205 p.
  25. R.A. Freeze, J.A. Cherry, Groundwater, Prentice-Hall, Englewood Cliffs, New Jersey, USA, 1979.
  26. CRDA, Annuaires de l’exploitation des nappes phréatiques, Commissariat régional au développement agricole, Sfax 2014, 392 p.
  27. DGRE, Annuaires de l’exploitation des nappes phréatiques, Direction générale des ressources en eaux, Tunis, 1973–2014, 381 p.