Multi-isotope and Hydrogeochemical approach for characterizing Saturnia thermal groundwater (Grosseto, Italy)

Multi-isotope and Hydrogeochemical approach for characterizing Saturnia thermal groundwater (Grosseto, Italy)

Aim of this study is to define the groundwater flow of thermal area of Saturnia, through both chemical and isotope analyses. After a first detailed geological-geophysical survey and a quantification of the available groundwater resources, we analyzed several chemical compounds (Na, Ca, Mg, K, Chlori...

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Main Authors: Alessio Barbagli, Fabio Nunzio Antonio Brogna, Ivan Callegari, Enrico Guastaldi, Giovanni Liali, Natalie Marsico, Carmela Rezza, Marilena Trotta
Format: Article
Language:English
Published: PAGEPress Publications 2013-12-01
Series:Acque Sotterranee
Subjects:
Saturnia, Groundwater Age, Hydrochemistry, Isotopes, Thermal Water
Online Access:http://www.acquesotterranee.online/index.php/acque/article/view/99
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spelling doaj-d6453dbb576a4112a563c3bd05ae367b2020-11-25T03:46:45ZengPAGEPress PublicationsAcque Sotterranee1828-454X2280-64582013-12-012410.7343/as-049-13-007699Multi-isotope and Hydrogeochemical approach for characterizing Saturnia thermal groundwater (Grosseto, Italy)Alessio Barbagli0Fabio Nunzio Antonio Brogna1Ivan Callegari2Enrico Guastaldi3Giovanni Liali4Natalie Marsico5Carmela Rezza6Marilena Trotta7CGT Centro di GeoTecnologie - Università di Siena, S. Giovanni Valdarno (AR)CGT Centro di GeoTecnologie - Università di Siena, S. Giovanni Valdarno (AR)CGT Centro di GeoTecnologie - Università di Siena, S. Giovanni Valdarno (AR)CGT Centro di GeoTecnologie - Università di Siena, S. Giovanni Valdarno (AR)CGT Centro di GeoTecnologie - Università di Siena, S. Giovanni Valdarno (AR)CGT Centro di GeoTecnologie - Università di Siena, S. Giovanni Valdarno (AR)Acerra (NA)CGT Centro di GeoTecnologie - Università di Siena, S. Giovanni Valdarno (AR)Aim of this study is to define the groundwater flow of thermal area of Saturnia, through both chemical and isotope analyses. After a first detailed geological-geophysical survey and a quantification of the available groundwater resources, we analyzed several chemical compounds (Na, Ca, Mg, K, Chlorides, Sulfates, Nitrates, total alkalinity, Li, Sr, B, Fluorides, soluble Silica, free Carbon Dioxide, Sb, As, Se, H2S, Fe, Mn, Hg e Pb) and isotopes (2H; 3H, 3He, 4He, 13C, 18O, 86Sr, 87Sr). Excluding the uncertainties mainly related to a large repetition of measures over time, we concluded the following conclusions. Both Lithium and Boron high values and 87Sr/86Sr values highlighted that “Calcare Cavernoso” limestone geological formation constitutes the Saturnia thermal aquifer. Such samples showed both the same chemical characteristics and source area. Boron, Lithium, δ2H, δ18O and 87Sr/86Sr show the Saturnia thermal aquifer is separated by those of Pitigliano (Latera- Bolsena thermal circuit) and Bagni San Filippo (Mt. Amiata thermal circuit). 18O, 3H e δ13C measured in samples coming from Saturnia thermal spring respectively indicate that water feeding the thermal aquifer infiltrate at 350-440 m a.s.l., that they are almost 30 years old, and finally they that are isolated regarding to external infiltration. Low value of R/Ra tends to exclude the influence of Earth mantle to the geothermal anomaly of Saturnia area. The high content in Selenium indicates a possible interaction between Saturnia spring water and those coming from the Saturnia well, with volcanic fluids. However, considering also the evidence of the separation between the Saturnia groundwater flow and those of neighboring thermal fields (Bolsena and Mt. Amiata), we hypothesized that only a exchange among these volcanic complexes and the source area of thermal water points exists, but not among these complex and Saturnia aquifer.http://www.acquesotterranee.online/index.php/acque/article/view/99Saturnia, Groundwater Age, Hydrochemistry, Isotopes, Thermal Water
collection DOAJ
language English
format Article
sources DOAJ
author Alessio Barbagli
Fabio Nunzio Antonio Brogna
Ivan Callegari
Enrico Guastaldi
Giovanni Liali
Natalie Marsico
Carmela Rezza
Marilena Trotta
spellingShingle Alessio Barbagli
Fabio Nunzio Antonio Brogna
Ivan Callegari
Enrico Guastaldi
Giovanni Liali
Natalie Marsico
Carmela Rezza
Marilena Trotta
Multi-isotope and Hydrogeochemical approach for characterizing Saturnia thermal groundwater (Grosseto, Italy)
Acque Sotterranee
Saturnia, Groundwater Age, Hydrochemistry, Isotopes, Thermal Water
author_facet Alessio Barbagli
Fabio Nunzio Antonio Brogna
Ivan Callegari
Enrico Guastaldi
Giovanni Liali
Natalie Marsico
Carmela Rezza
Marilena Trotta
author_sort Alessio Barbagli
title Multi-isotope and Hydrogeochemical approach for characterizing Saturnia thermal groundwater (Grosseto, Italy)
title_short Multi-isotope and Hydrogeochemical approach for characterizing Saturnia thermal groundwater (Grosseto, Italy)
title_full Multi-isotope and Hydrogeochemical approach for characterizing Saturnia thermal groundwater (Grosseto, Italy)
title_fullStr Multi-isotope and Hydrogeochemical approach for characterizing Saturnia thermal groundwater (Grosseto, Italy)
title_full_unstemmed Multi-isotope and Hydrogeochemical approach for characterizing Saturnia thermal groundwater (Grosseto, Italy)
title_sort multi-isotope and hydrogeochemical approach for characterizing saturnia thermal groundwater (grosseto, italy)
publisher PAGEPress Publications
series Acque Sotterranee
issn 1828-454X
2280-6458
publishDate 2013-12-01
description Aim of this study is to define the groundwater flow of thermal area of Saturnia, through both chemical and isotope analyses. After a first detailed geological-geophysical survey and a quantification of the available groundwater resources, we analyzed several chemical compounds (Na, Ca, Mg, K, Chlorides, Sulfates, Nitrates, total alkalinity, Li, Sr, B, Fluorides, soluble Silica, free Carbon Dioxide, Sb, As, Se, H2S, Fe, Mn, Hg e Pb) and isotopes (2H; 3H, 3He, 4He, 13C, 18O, 86Sr, 87Sr). Excluding the uncertainties mainly related to a large repetition of measures over time, we concluded the following conclusions. Both Lithium and Boron high values and 87Sr/86Sr values highlighted that “Calcare Cavernoso” limestone geological formation constitutes the Saturnia thermal aquifer. Such samples showed both the same chemical characteristics and source area. Boron, Lithium, δ2H, δ18O and 87Sr/86Sr show the Saturnia thermal aquifer is separated by those of Pitigliano (Latera- Bolsena thermal circuit) and Bagni San Filippo (Mt. Amiata thermal circuit). 18O, 3H e δ13C measured in samples coming from Saturnia thermal spring respectively indicate that water feeding the thermal aquifer infiltrate at 350-440 m a.s.l., that they are almost 30 years old, and finally they that are isolated regarding to external infiltration. Low value of R/Ra tends to exclude the influence of Earth mantle to the geothermal anomaly of Saturnia area. The high content in Selenium indicates a possible interaction between Saturnia spring water and those coming from the Saturnia well, with volcanic fluids. However, considering also the evidence of the separation between the Saturnia groundwater flow and those of neighboring thermal fields (Bolsena and Mt. Amiata), we hypothesized that only a exchange among these volcanic complexes and the source area of thermal water points exists, but not among these complex and Saturnia aquifer.
topic Saturnia, Groundwater Age, Hydrochemistry, Isotopes, Thermal Water
url http://www.acquesotterranee.online/index.php/acque/article/view/99
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