Hydrogeochemical and isotope geochemical study of northwestern Algerian thermal waters

Northwestern Algeria is characterized by a large number of thermal waters and volcanic eruptions and belongs to the Alpine-Magrebide belt. The geothermal reservoirs that feed these reservoirs are mainly hosted by a fractured Jurassic limestone and dolomite sequence. Seven samples were collected from thermal springs of near-neutral pH (6.2 to 7.56) with discharge temperatures between 42.9 and 66.1 degrees C. Hydrogeochemical analyses of the thermal waters reveal four types (Na+-Ca2+-Cl-, Na+-Ca2+-Cl--HCO3-, Na+-Ca2+-Cl--SO42-, and Na+-HCO3--Cl-) and show high total dissolved solids up to 4002 mg/L. Stable isotopic results (delta O-18 and delta D) indicate that the thermal waters are of meteoric origin deeply infiltrated and heated by advective heat anomalies and raised up to the surface through deep-seated faults acting as hydrothermal conduits. The estimated reservoir temperatures using silica geothermometers and fluid-mineral equilibria overlap between 66 and 125 degrees C, while Na/K and K/Mg geothermometers give much higher and lower results, respectively, and are mainly influenced by mixing with cooler Mg groundwaters as indicated by the Na-K-Mg plot in the immature water field and in silica and chloride mixing models. Thermal waters deeply circulated and heated at a depth of 2 km were supplied by the higher geothermal gradients, which can reach 42.8 degrees C km(-1) due to the complex geological setting.