The geochemistry of thermal spring waters in the Acquasanta Terme area, located on the Adriatic side of central Italy, has been investigated in order to characterize the geothermal feeding system. The springs discharge more than 100 L/s at temperature ranging between 20 and 30 C. They occur in a tectonic window of Mesozoic limestones in the central sector of the Acquasanta anticline within the Laga fore- deep Basin. Chemical and isotopic compositions of thermal and cold fluids were investigated, most of them monitored for one year, in order to understand the thermal fluid circulation paths. The chemistry of the major elements defines the existence of NaeCl and CaeCleSO24- hot discharging waters and permits the characterization of the thermal end-member hosted in carbonate-dominated reservoir (Burano Anhydrites FmeCalcare Massiccio Fm). This deep fluid is well represented by the sample T1 and shows high temperature and electrical conductivity (EC), very stable over time, and not affected by mixing phenomena. This is also confirmed by tritium results (0 T.U.). Close to the surface at different depth, such water undergoes mixing or dilution processes with HCO3 rich freshwaters, driven by the complex structural setting of the area and by diffuse karst caves. This is identified as the main reason for observed compositional variations of sampled springs, and three areas affected by different mixing phenomena have been defined at the surface. The concentrations of SO24 and H2S suggest redox processes affecting sulfur after interaction with evaporitic formations, identified with the Burano Anhydrites, at the base of the UmbriaeMarche sedimentary sequence (~3500-m-deep). Contribution from this reservoir is also supported by characteristic Sr isotope signature. d18O and dD values indicate a meteoric origin of the thermal waters and allow estimation of an average infiltration altitude ranging between 1500 and 1700 m a.s.l. This datum, supported by structural data, suggests the Laga Mountains as the recharge area of the system. Reservoir temperature inferred by SO24eHCO3 eF, Ca/Mg and SO24/F geothermometers is about 80 C, consistent with the geothermal gradient of the foredeep basin, and deserving further in- vestigations for potential economic implications about this low-enthalpy geothermal area.

Circulation path of thermal waters within the Laga foredeep basin inferred from chemical and isotopic (d18O, dD, 3H, 87Sr/86Sr) data

Mario Mussi;Maddalena Pennisi
2017

Abstract

The geochemistry of thermal spring waters in the Acquasanta Terme area, located on the Adriatic side of central Italy, has been investigated in order to characterize the geothermal feeding system. The springs discharge more than 100 L/s at temperature ranging between 20 and 30 C. They occur in a tectonic window of Mesozoic limestones in the central sector of the Acquasanta anticline within the Laga fore- deep Basin. Chemical and isotopic compositions of thermal and cold fluids were investigated, most of them monitored for one year, in order to understand the thermal fluid circulation paths. The chemistry of the major elements defines the existence of NaeCl and CaeCleSO24- hot discharging waters and permits the characterization of the thermal end-member hosted in carbonate-dominated reservoir (Burano Anhydrites FmeCalcare Massiccio Fm). This deep fluid is well represented by the sample T1 and shows high temperature and electrical conductivity (EC), very stable over time, and not affected by mixing phenomena. This is also confirmed by tritium results (0 T.U.). Close to the surface at different depth, such water undergoes mixing or dilution processes with HCO3 rich freshwaters, driven by the complex structural setting of the area and by diffuse karst caves. This is identified as the main reason for observed compositional variations of sampled springs, and three areas affected by different mixing phenomena have been defined at the surface. The concentrations of SO24 and H2S suggest redox processes affecting sulfur after interaction with evaporitic formations, identified with the Burano Anhydrites, at the base of the UmbriaeMarche sedimentary sequence (~3500-m-deep). Contribution from this reservoir is also supported by characteristic Sr isotope signature. d18O and dD values indicate a meteoric origin of the thermal waters and allow estimation of an average infiltration altitude ranging between 1500 and 1700 m a.s.l. This datum, supported by structural data, suggests the Laga Mountains as the recharge area of the system. Reservoir temperature inferred by SO24eHCO3 eF, Ca/Mg and SO24/F geothermometers is about 80 C, consistent with the geothermal gradient of the foredeep basin, and deserving further in- vestigations for potential economic implications about this low-enthalpy geothermal area.
2017
Istituto di Geoscienze e Georisorse - IGG - Sede Pisa
Thermal waters Geochemistry Isotopes Fluid circulation Laga basin
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/402762
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