In this study, the chemical and isotopic composition of thermo-mineral springs from the Rosario de la Frontera hydrothermal system was used to construct a conceptual model describing the source regions the thermal fluids and the chemical–physical processes controlling the chemistry of waters and dissolved gases during their underground circulation. The main hydrothermal reservoir, hosted within the Cretaceous Pirgua Subgroup deposits, is fed by meteoric water and shows a Na–HCO3 composition produced by water–rock interactions involving sedimentary formations mostly consisting of conglomerates and sandstones, which are interbedded with alkaline volcanic rocks and shales and limestone deposits. This aquifer also receives significant contributions of crustal CO2 and He from mantle degassing, the latter being likely favored by the regional tectonic assessment that is characterized by a deep detachment (at about 10 km depth) in the basement of the Santa Bárbara thickskinned thrust system and a thinned lithosphere. The uprising thermal fluids mix with a relatively high salinity Na–Cl dominated aquifer produced by the interaction of meteoric water with the Tertiary Anta Formation evaporite. The temperatures of the hydrothermal reservoir, estimatedwithwater geothermometers, are up to 130 °C, which are consistent with the thickness of the hydrothermal circuit (2700–3000 m) and the relatively high local geothermal gradient (~40 °C/km). These results suggest that the heat stored in the fluid phase of RFHS is up to ~1 × 1018 J, a value significantly higher (20%) than that previously estimated assuming an average reservoir temperature of 90 °C.

New geochemical and isotopic insights to evaluate the geothermal resource of the hydrothermal system of Rosario de la Frontera (Salta, northern Argentina)

INVERNIZZI, Maria Chiara;PIERANTONI, Pietro Paolo
2015-01-01

Abstract

In this study, the chemical and isotopic composition of thermo-mineral springs from the Rosario de la Frontera hydrothermal system was used to construct a conceptual model describing the source regions the thermal fluids and the chemical–physical processes controlling the chemistry of waters and dissolved gases during their underground circulation. The main hydrothermal reservoir, hosted within the Cretaceous Pirgua Subgroup deposits, is fed by meteoric water and shows a Na–HCO3 composition produced by water–rock interactions involving sedimentary formations mostly consisting of conglomerates and sandstones, which are interbedded with alkaline volcanic rocks and shales and limestone deposits. This aquifer also receives significant contributions of crustal CO2 and He from mantle degassing, the latter being likely favored by the regional tectonic assessment that is characterized by a deep detachment (at about 10 km depth) in the basement of the Santa Bárbara thickskinned thrust system and a thinned lithosphere. The uprising thermal fluids mix with a relatively high salinity Na–Cl dominated aquifer produced by the interaction of meteoric water with the Tertiary Anta Formation evaporite. The temperatures of the hydrothermal reservoir, estimatedwithwater geothermometers, are up to 130 °C, which are consistent with the thickness of the hydrothermal circuit (2700–3000 m) and the relatively high local geothermal gradient (~40 °C/km). These results suggest that the heat stored in the fluid phase of RFHS is up to ~1 × 1018 J, a value significantly higher (20%) than that previously estimated assuming an average reservoir temperature of 90 °C.
2015
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Descrizione: This is the study about the chemical and isotopic composition of thermo-mineral springs from the Rosario de la Frontera hydrothermal system. It was used to construct a conceptual model describing the source regions the thermal fluids and the chemical–physical processes controlling the chemistry of waters and dissolved gases during their underground circulation.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11581/385985
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