Combined geophysical and geochemical approaches to understand groundwater salinization processes in Sminja aquifer, northeast of Tunisia
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[1] S. Mejri,et al. Tracing groundwater salinization processes in an inland aquifer: A hydrogeochemical and isotopic approach in Sminja aquifer (Zaghouan, northeast of Tunisia) , 2018, Journal of African Earth Sciences.
[2] H. Gabtni,et al. Combined application of vertical electrical sounding and 2D electrical resistivity imaging for geothermal groundwater characterization: Hammam Sayala hot spring case study (NW Tunisia) , 2017 .
[3] M. Gueddari,et al. Suitability for human consumption and agriculture purposes of Sminja aquifer groundwater in Zaghouan (north-east of Tunisia) using GIS and geochemistry techniques , 2016, Environmental Geochemistry and Health.
[4] Khaled S. Gemail,et al. Use of salinity and resistivity measurements to study the coastal aquifer salinization in a semi-arid region: a case study in northeast Nile Delta, Egypt , 2016, Environmental Earth Sciences.
[5] Yan-xin Wang,et al. Groundwater salinization in shallow aquifers adjacent to a low-altitude inland salt lake: a case study at Yuncheng Basin, northern China , 2016, Environmental Earth Sciences.
[6] M. Gueddari,et al. Nitrate contamination of Sminja aquifer groundwater in Zaghouan, northeast Tunisia: WQI and GIS assessments , 2016 .
[7] J. Tarhouni,et al. 3D simulation of a multi-stressed coastal aquifer, northeast of Tunisia: salt transport processes and remediation scenarios , 2015, Environmental Earth Sciences.
[8] J. Dandurand,et al. REE and isotope (Sr, S, and Pb) geochemistry to constrain the genesis and timing of the F–(Ba–Pb–Zn) ores of the Zaghouan District (NE Tunisia) , 2013 .
[9] Peiyue Li,et al. Isotopic characteristics of precipitation, surface and ground waters in the Yinchuan plain, Northwest China , 2013, Environmental Earth Sciences.
[10] H. Gabtni,et al. Joint evaluation of gravity, electrical and magnetotelluric methods for geothermal potential of fractured Aptian reefal carbonates in the Hmaima–El Gara area (Oued Serrat basin, Central–Western Tunisia) , 2013, Arabian Journal of Geosciences.
[11] F. Noronha,et al. Effet auto-épurateur de la lithologie des affleurements géologiques dans un climat semi-aride: cas du bassin versant de l'Oued Mellègue (Nord-Ouest de la Tunisie) , 2013 .
[12] Mennoubi Sfar Felfoul,et al. Geophysical and hydrochemical study of the seawater intrusion in Mediterranean semi arid zones. Case of the Korba coastal aquifer (Cap-Bon, Tunisia) , 2010 .
[13] M. Kouli,et al. Coastal aquifer assessment based on geological and geophysical survey, northwestern Crete, Greece , 2010 .
[14] K. Zouari,et al. Hydrochemical and isotopic investigation of the groundwater composition of an alluvial aquifer, Cap Bon Peninsula, Tunisia , 2010 .
[15] A. Bakhsh,et al. The use of vertical electrical sounding resistivity method for the location of low salinity groundwater for irrigation in Chaj and Rachna Doabs , 2010 .
[16] M. Tsujimura,et al. Stable isotopic and geochemical characteristics of groundwater in Kherlen River basin, a semi-arid region in eastern Mongolia , 2007 .
[17] E. Okolie,et al. Determination of groundwater potential in obiaruku and environs using surface geoelectric sounding , 2006 .
[18] H. Sahoo,et al. Targeting Ground Water in Tribal Dominated Bonai Area of Drought - Prone Sundargarh District, Orissa, India – A Combined Geophysical and Remote Sensing Approach , 2006 .
[19] K. Choudhury,et al. Integrated Geophysical and Chemical Study of Saline Water Intrusion , 2004, Ground water.
[20] P. Stuyfzand. Patterns in groundwater chemistry resulting from groundwater flow , 1999 .
[21] W. Dansgaard. Stable isotopes in precipitation , 1964 .
[22] H. Craig. Isotopic Variations in Meteoric Waters , 1961, Science.