6533b823fe1ef96bd127e9a3

RESEARCH PRODUCT

Hydrogeochemistry and stable isotopes of thermal springs: earthquake-related chemical changes along Belice Fault (Western Sicily)

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Abstract Three geothermal systems, Montevago, Castellammare-Alcamo and Sciacca, are located along the main seismogenetic structures in Western Sicily. Concentrations of dissolved species including the gases CO 2 , N 2 , He and the results of stable isotope measurements δ 18 O, δ D and δ 13 C TDIC in water samples collected from six thermal springs and 28 cold discharges were used to characterise their feeder aquifers and to reveal the relationships between water chemistry and regional seismicity. The Sciacca thermal springs differ chemically and isotopically from those of Montevago and the Castellammare-Alcamo areas. The inferred deep end-members of the thermal waters of Montevago and Castellammare-Alcamo are almost similar, suggesting that both systems are fed by carbonate waters and selenite waters. A slight contribution (1–3%) of seawater, during groundwater ascent it is also present. The Sciacca thermal springs are fed by a deep reservoir comprising a mixture of 50% carbonate water and 50% seawater. During ascent towards the surface, these waters interact with NaCl-rich evaporite layers. By combination of published and present data significant temporal variations of temperature and some chemical parameters in the thermal waters of Western Sicily have been recorded. These variations were mostly between 1966 and 1969. Although the data are discontinuous it is still possible to reveal a direct link between physico–chemical changes in the Acqua Pia and Terme Selinuntine springs and the 1968 Belice Valley earthquake. Within the studied springs, two kinds of geochemical behaviour have been recognised. The chemistry of the Montevago thermal springs was permanently changed in response to changes in the groundwater system. Water temperature and dissolved SO 4 , Cl, Na, and TDS showed minimum values before the earthquake and maximum values after the event. Almost constant values substantially higher than before, were recorded after the seismic event. Conversely, the temporal variations observed in the waters of the Terme Selinuntine spring, from 1965 to 1991, exhibit a transient increase most probably caused by a temporary contribution of deep CO 2 -rich fluids caused by the strain release during the 1968 earthquake.