Geochemical and isotopic investigation of the aquifer system in the Djerid-Nefzaoua basin, southern Tunisia

In the Djerid-Nefzaoua region, southern Tunisia, about 80% of agricultural and domestic water supply is provided by the complex terminal (CT) aquifer. However, 20% of this demand is provided by other hydraulically connected aquifers, namely the continental intercalaire (CI) and the Plio-Quaternary (...

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Veröffentlicht in:	Environmental earth sciences 2005-11, Vol.49 (1), p.159-170
Hauptverfasser:	KAMEL, Samir, DASSI, Lassaad, ZOUARI, Kamel, ABIDI, Brahim
Format:	Artikel
Sprache:	eng
Schlagworte:	Agricultural practices Aquifer systems Aquifers Domestic water Earth sciences Earth, ocean, space Evaporation Exact sciences and technology Flow system Geochemistry Groundwater Groundwater data Groundwater levels Gypsum Hydrogeology Hydrology. Hydrogeology Irrigation water Isotope geochemistry Isotope geochemistry. Geochronology Mineralogy Overexploitation Salinization Silicates Water analysis Water geochemistry Water sampling Water supply
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creator	KAMEL, Samir DASSI, Lassaad ZOUARI, Kamel ABIDI, Brahim
description	In the Djerid-Nefzaoua region, southern Tunisia, about 80% of agricultural and domestic water supply is provided by the complex terminal (CT) aquifer. However, 20% of this demand is provided by other hydraulically connected aquifers, namely the continental intercalaire (CI) and the Plio-Quaternary (PQ). Overexploitation of the CT aquifer for agricultural practices has contributed to the loss of the artesian condition and the decline of groundwater level which largely increased the downward leakage from the shallow PQ aquifer. Excess irrigation water concentrates at different rates in the irrigation channels and in the PQ aquifer itself. Then, it returns to the CT aquifer and mixes with water from the regional flow system, which contributes to the salinization of the CT groundwater. A geochemical and isotopic study had been undertaken over a 2-years period in order to investigate the origin of waters pumped from the CT aquifer with an emphasis on its hydraulic relationships with the underlying and the overlying CI and PQ aquifers. Geochemistry indicates that groundwater samples collected from different wells show an evolution of the water types from Na-Cl to Ca-SO^sub 4^-Cl. Dissolution of halite, gypsum and anhydrite-bearing rocks is the main mechanism that leads to the salinization of the groundwater. Isotopic data indicate the old origin of all groundwater in the aquifer system. Mixing and evaporation effects characterizing the CT and the PQ aquifers were identified using δ^sup 2^H and δ^sup 18^O relationship and confirmed by the conjunction of δ^sup 2^H with chloride concentration.[PUBLICATION ABSTRACT]
doi_str_mv	10.1007/s00254-005-0076-1
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Geochemistry indicates that groundwater samples collected from different wells show an evolution of the water types from Na-Cl to Ca-SO^sub 4^-Cl. Dissolution of halite, gypsum and anhydrite-bearing rocks is the main mechanism that leads to the salinization of the groundwater. Isotopic data indicate the old origin of all groundwater in the aquifer system. 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Hydrogeology</topic><topic>Irrigation water</topic><topic>Isotope geochemistry</topic><topic>Isotope geochemistry. 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However, 20% of this demand is provided by other hydraulically connected aquifers, namely the continental intercalaire (CI) and the Plio-Quaternary (PQ). Overexploitation of the CT aquifer for agricultural practices has contributed to the loss of the artesian condition and the decline of groundwater level which largely increased the downward leakage from the shallow PQ aquifer. Excess irrigation water concentrates at different rates in the irrigation channels and in the PQ aquifer itself. Then, it returns to the CT aquifer and mixes with water from the regional flow system, which contributes to the salinization of the CT groundwater. A geochemical and isotopic study had been undertaken over a 2-years period in order to investigate the origin of waters pumped from the CT aquifer with an emphasis on its hydraulic relationships with the underlying and the overlying CI and PQ aquifers. Geochemistry indicates that groundwater samples collected from different wells show an evolution of the water types from Na-Cl to Ca-SO^sub 4^-Cl. Dissolution of halite, gypsum and anhydrite-bearing rocks is the main mechanism that leads to the salinization of the groundwater. Isotopic data indicate the old origin of all groundwater in the aquifer system. Mixing and evaporation effects characterizing the CT and the PQ aquifers were identified using δ^sup 2^H and δ^sup 18^O relationship and confirmed by the conjunction of δ^sup 2^H with chloride concentration.[PUBLICATION ABSTRACT]</abstract><cop>Berlin</cop><pub>Springer</pub><doi>10.1007/s00254-005-0076-1</doi><tpages>12</tpages></addata></record>
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subjects	Agricultural practices Aquifer systems Aquifers Domestic water Earth sciences Earth, ocean, space Evaporation Exact sciences and technology Flow system Geochemistry Groundwater Groundwater data Groundwater levels Gypsum Hydrogeology Hydrology. Hydrogeology Irrigation water Isotope geochemistry Isotope geochemistry. Geochronology Mineralogy Overexploitation Salinization Silicates Water analysis Water geochemistry Water sampling Water supply
title	Geochemical and isotopic investigation of the aquifer system in the Djerid-Nefzaoua basin, southern Tunisia
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