Geochemical study of fluids on Lesbos island, Greece |
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Authors: | Alberto Bencini Vittorio Duchi Antonio Casatello Nikolaos Kolios Michalis Fytikas Luca Sbaragli |
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Affiliation: | a Department of Earth Sciences, Via La Pira 4, Florence 50121, Italy;b Institute of Geology and Mineral Exploration (IGME), Thessaloniki 54626, Greece;c Department of Geology, University of Thessaloniki, Thessaloniki 54006, Greece |
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Abstract: | Sixty-five water samples and seven associated gas samples have been collected on Lesbos island. The lithology and structural setting have resulted in two main types of hydrological circulation: a shallow circulation hosting low-salinity cold waters and a deeper one, hosting high-salinity hot waters that often emerge in thermal springs near the coast. The cold waters are characterized by Ca(Mg)-HCO3(SO4) composition, while the thermal waters generally have an Na-Cl composition. The chemical features of the former can be explained by their circulation in the ophiolite-bearing phyllitic basement and volcanic rocks. Waters circulating in the ultramafic layers of the basement are richer in Mg than the waters whose circulation is mainly within marble levels or volcanic rocks. The Na-Cl thermal waters are characterized by salinities ranging from 1910 to 35,700 mg/kg. As indicated by previous hydrogeochemical and isotopic studies, the Na-Cl composition of the thermal waters on Lesbos is the result of mixing between shallow meteoric waters and marine waters. While interacting with the minerals of the geothermal reservoir, the saline waters retain the Na/Cl sea water ratio but become enriched in Ca2+ and depleted in Mg2+ with respect to sea water.Processes of hydrothermal alteration at depth are activated by a gas phase enriched in CO2, which reaches the geothermal reservoir by rising along the deep fractures of the basement. Thermodynamic calculations based on hydrothermal alteration processes occurring at the estimated temperatures of the geothermal reservoir (about 120 °C) indicate that the thermal waters of Lesbos are in equilibrium with talc and dolomite. |
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Keywords: | Fluid geochemistry Geothermometry Lesbos Greece |
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