Origin of groundwater salinity (current seawater vs. saline deep water) in a coastal karst aquifer based on Sr and Cl isotopes. Case study of the La Clape massif (southern France).

Abstract : Origin of groundwater salinity (current seawater vs. saline deep water) in a coastal karst aquifer based on Sr and Cl isotopes. Case study of the La Clape massif (southern France) a b s t r a c t In this study a typical coastal karst aquifer, developed in lower Cretaceous limestones, on the western Med-iterranean seashore (La Clape massif, southern France) was investigated. A combination of geochemical and isotopic approaches was used to investigate the origin of salinity in the aquifer. Water samples were collected between 2009 and 2011. Three groundwater groups (A, B and C) were identified based on the hydrogeological setting and on the Cl À concentrations. Average and maximum Cl À concentrations in the recharge waters were calculated (Cl Ref. and Cl Ref.Max) to be 0.51 and 2.85 mmol/L, respectively). Group A includes spring waters with Cl À concentrations that are within the same order of magnitude as the Cl Ref concentration. Group B includes groundwater with Cl À concentrations that range between the Cl Ref and Cl Ref.Max concentrations. Group C includes brackish groundwater with Cl À concentrations that are significantly greater than the Cl Ref.Max concentration. Overall, the chemistry of the La Clape groundwater evolves from dominantly Ca–HCO 3 to NaCl type. On binary diagrams of the major ions vs. Cl, most of the La Clape waters plot along mixing lines. The mixing end-members include spring waters and a saline component (current seawater or fossil saline water). Based on the Br/Cl molar ratio, the hypothesis of halite dissolution from Triassic evaporites is rejected to explain the origin of salinity in the brackish groundwater. Groundwaters display 87 Sr/ 86 Sr ratios intermediate between those of the limestone aquifer matrix and current Mediterranean seawater. On a Sr mixing diagram, most of the La Clape waters plot on a mixing line. The end-members include the La Clape spring waters and saline waters, which are similar to the deep geo-thermal waters that were identified at the nearby Balaruc site. The 36 Cl/Cl ratios of a few groundwater samples from group C are in agreement with the mixing hypothesis of local recharge water with deep saline water at secular equilibrium within a carbonate matrix. Finally, PHREEQC modelling was run based on cal-cite dissolution in an open system prior to mixing with the Balaruc type saline waters. Modelled data are consistent with the observed data that were obtained from the group C groundwater. Based on several trac-ers (i.e. concentrations and isotopic compositions of Cl and Sr), calculated ratios of deep saline water in the mixture are coherent and range from 3% to 16% and 0% to 3% for groundwater of groups C and B, respectively. With regard to the La Clape karst aquifer, the extension of a lithospheric fault in the study area may favour the rise of deep saline water. Such rises occur at the nearby geothermal Balaruc site along another lithospheric fault. At the regional scale, several coastal karst aquifers are located along the Gulf of Lion and occur in Mezosoic limestones of similar ages. The 87 Sr/ 86 Sr ratios of these aquifers tend toward values of 0.708557, which suggests a general mixing process of shallow karst waters with deep saline fossil waters. The occurrence of these fossil saline waters may be related to the introduction of seawater during and after the Flandrian transgression, when the highly karstified massifs invaded by seawater, formed islands and peninsulas along the Mediterranean coast.
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Mahmoud Khaska, Corinne Le Gal, Joël Lancelot, Amad Mohamad, Patrick Verdoux, et al.. Origin of groundwater salinity (current seawater vs. saline deep water) in a coastal karst aquifer based on Sr and Cl isotopes. Case study of the La Clape massif (southern France). . Applied Geochemistry, Elsevier, 2013, ⟨10.1016/j.apgeochem.2013.07.006⟩. ⟨hal-01318438⟩

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