GLORIA — GEOMAR Library Ocean Research Information Access

1

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Geochemistry of gases and waters discharged by the mud volcanoes at Paternò, Mt. Etna (Italy) (1996)

Chiodini, G. ; D'Alessandro, W. ; Parello, F.

Springer

Bulletin of volcanology 58 (1996), S. 51-58

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ISSN: 1432-0819

Keywords: Key words Mud volcanoes ; Fluid chemistry ; Gas separation ; Hydrothermal system ; Volcanic surveillance ; Etna volcano

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract Approximately 20 km south of Mt. Etna craters, at the contact between volcanic and sedimentary formations, three mud volcanoes discharge CO2-rich gases and Na–Cl brines. The compositions of gas and liquid phases indicate that they are fed by a hydrothermal system for which temperatures of 100–150 °C were estimated by means of both gas and solute geothermometry. The hydrothermal system may be associated with CO2-rich groundwaters over a large area extending from the central part of Etna to the mud volcanoes. Numerous data on the He, CH4, CO2 composition of the gases of the three manifestations, sampled over the past 5 years, indicate clearly that variations are due to separation processes of a CO2-rich gas phase from the liquid. The effects of these processes have to be taken into account in the interpretation of the monitoring data collected for the geochemical surveillance of Etna volcano.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004450050125

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2

Electronic Resource

CO2 output and δ13C(CO2) from Mount Etna as indicators of degassing of shallow asthenosphere (1997)

D'Alessandro, W. ; Giammanco, S. ; Parello, F. ; [et al.]

Springer

Bulletin of volcanology 58 (1997), S. 455-458

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ISSN: 1432-0819

Keywords: Key words Etna ; Carbon dioxide output ; Magma degassing ; Volcanic activity

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract An estimated average CO2 output from Etna's summit craters in the range of 13±3 Mt/a has recently been determined from the measured SO2 output and measured CO2/SO2 molar ratios. To this amount the CO2 output emitted diffusely from the soil (≈ 1 Mt/a) and the amount of CO2 dissolved in Etna's aquifers (≈ 0.25 Mt/a) must be added. Data on the solubility of CO2 in Etnean magmas at high temperature and pressure allow the volume of magma involved in the release of such an amount of this gas to be estimated. This volume of magma (≈ 0.7 km3/a) is approximately 20 times greater than the volume of magma erupted annually during the period 1971–1995. On the basis of C-isotopic data of CO2 collected in the Etna area and of new hypotheses on the source of Mediterranean magmas, significant contributions of CO2 from non-magmatic sources to the total output from Etna are unlikely. Such large outputs of CO2 and also of SO2 from Etna could be due to an anomalously shallow asthenosphere beneath the volcano that allows a continuous escape of gases toward the surface, even without migration of magma.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004450050154

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3

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Present-day Serpantinisation Processes in the Kizildag Ophiolitic Body (Turkey): Insight from Gas Geohemistry. (2015)

Yuce, G. ; D’Alessandro, W. ; Italiano, F. ; [et al.]

In: [Talk] In: ICGG13 International Conference on Gas Geochemistry, 24.08.- 28.08.2015, Chengdu, China .

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Publication Date: 2018-06-04

Type: Conference or Workshop Item , NonPeerReviewed

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Geochemical characterisation of the alkaline and hyperalkaline groundwater in the Othrys Ophiolite Massif, central Greece (2021)

Li Vigni, L. ; Daskalopoulou, K. ; Calabrese, S. ; [et al.]

In: Italian Journal of Geosciences

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Publication Date: 2021-02-22

Description: The complex geology of Greece includes two important parallel running ophiolitic belts. The Othrys Massif in central Greece belongs to the westernmost of them. In the current study, 33 water samples from cold hyperalkaline and hypothermal (T 〈 40°C) alkaline springs and 30 gas samples (either dissolved or free) were collected at 17 different sites in and around this wide ophiolite outcrop, aiming to determine the origin of fluids and evidence gas-water-rock interaction processes taking place in the area. Water samples were analysed for their chemical (major ions and trace elements) and isotope (d18O-H2O, d2H-H2O) composition. They can be subdivided into alkaline (pH 〈11) of both Mg-Ca-HCO3 and Na-HCO3 composition and hyperalkaline (pH 〉 11 and Ca-OH composition). Trace elements generally showed very low concentrations and mostly inversely correlated with pH. Gases were analysed for their chemical (He, Ne, Ar, H2, O2, N2, CH4, C2H6, CO2 and H2S) and isotope (d13C-CH4, d2H-CH4, d13C-CO2) composition. Samples from alkaline waters were mainly dominated by CH4 (from 128,000 to 915,000 µmol/mol), while hyperalkaline waters showed a N2-rich composition (from 727,000 to 977,000 µmol/mol). Methane had a wide range of isotope compositions (d13C-CH4 from -74.5 to -14.5‰ and d2H-CH44 from -343 to -62‰). Alkaline waters present the most negative isotope values for CH4, evidencing a biogenic (both thermogenic and microbial) origin. Many of the hyperalkaline waters had CH4 isotope values compatible with an abiogenic origin through serpentinization processes but occasionaly very negative values were recorded, indicating sometimes a clear biogenic contribution. Finally, few samples both from alkaline and hyperalkaline waters showed some evidence of secondary oxidation processes.

Type: info:eu-repo/semantics/article

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Chemical characterisation of the gases released at Gyali Island, Dodecanese, Greece and preliminary estimation of the CO2 output (2021)

Daskalopoulou, K. ; Calabrese, S. ; Gagliano, A. ; [et al.]

In: Italian Journal of Geosciences

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Publication Date: 2021-02-22

Description: Greece belongs to the most geodynamically active regions of the world and as such, it has to be considered an area of intense geogenic degassing. In terms of carbon, the territory is characterized by the high hydrothermal and volcanic activity of the South Aegean Active Volcanic Arc (SAAVA), and by widespread geological seeps of buried carbon dioxide and methane. In the present work, we investigate the island of Gyali located in the volcanic system Kos-Gyali-Nisyros. Nine gas samples have been collected on the island of Gyali in areas found both on land, in a small lake (~2000 m2) along its beach, and in the sea close to the shore at shallow depths (〈20 m). Results show that CO2 is the prevailing gas species with concentrations above 833,000 μmol/mol, whilst minor enrichments in N2 are noticed in some of the samples. Helium isotope ratio suggests an up to 70% mantle origin (considering a MOR type source) with the contribution of the atmospheric component being negligible, whereas C presents a mixed mantle-limestone origin with organic sediment being unimportant. Such isotope values fall in the range that characterizes the Kos-Gyali- Nisyros Volcanic Field. First estimations on the CO2 release suggest an output in the range from 18 to 28 t/d for Gyali Island, which is much lower than the total output of Kos ~75 t/d and Nisyros ~100 t/d. However, such results highlight that Gyali is an active system and, despite its small size, its degassing is not trivial.

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Geochemical characterisation of the thermo-mineral waters of Greece (2022)

Vigni, L. ; Daskalopoulou, K. ; Calabrese, S. ; [et al.]

In: Environmental Geochemistry and Health

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Publication Date: 2022-07-12

Description: Geothermal areas of Greece are located in regions affected by recent volcanism and in continental basins characterised by elevated heat flow. Many of them are found along the coast, and thus, water is often saline due to marine intrusion. In the current study, we present about 300 unpublished and literature data from thermal and cold mineral waters collected along Greece. Samples were analysed for major ions, Li, SiO2 and isotopes in water. Measured temperatures range from 6.5 to 98 °C, pH from 1.96 to 11.98, while Total Dissolved Solutes (TDS) from 0.22 to 51 g/L. Waters were subdivided into four main groups: (1) thermal; (2) cold; (3) acidic (pH 〈 5); and (4) hyperalkaline (pH 〉 11). On statistical basis, thermal waters were subdivided into subgroups according to both their temperature [warm (〈 29 °C), hypothermal (29–48 °C), thermal (48–75 °C) and hyperthermal (〉 75 °C)] and TDS [low salinity (〈 4 g/L), brackish (4–30 g/L) and saline (〉 30 g/L)]. Cold waters were subdivided based on their pCO2 [low (〈 0.05 atm), medium (0.05–0.85 atm) and high (〉 0.85 atm)]. δ18O–H2O ranges from − 12.7 to + 2.7‰ versus SMOW, while δ2H–H2O from − 91 to + 12‰ versus SMOW being generally comprised between the Global Meteoric Water Line and the East Mediterranean Meteoric Water Line. Positive δ18O shifts with respect to the former are mostly related to mixing with seawater, while only for a few samples these shifts point to high-temperature water–rock interaction processes. Only a few thermal waters gave reliable geothermometric estimates, suggesting reservoir temperatures between 80 and 260 °C.

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Shallow Sea Gas Manifestations in the Aegean Sea (Greece) as Natural Analogs to Study Ocean Acidification: First Catalog and Geochemical Characterization (2022)

Daskalopoulou, K. ; D’Alessandro, W. ; Longo, M. ; [et al.]

In: Frontiers in Marine Science

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Publication Date: 2023-02-08

Description: The concepts of CO2 emission, global warming, climate change, and their environmental impacts are of utmost importance for the understanding and protection of the ecosystems. Among the natural sources of gases into the atmosphere, the contribution of geogenic sources plays a crucial role. However, while subaerial emissions are widely studied, submarine outgassing is not yet well understood. In this study, we review and catalog 122 literature and unpublished data of submarine emissions distributed in ten coastal areas of the Aegean Sea. This catalog includes descriptions of the degassing vents through in situ observations, their chemical and isotopic compositions, and flux estimations. Temperatures and pH data of surface seawaters in four areas affected by submarine degassing are also presented. This overview provides useful information to researchers studying the impact of enhanced seawater CO2 concentrations related either to increasing CO2 levels in the atmosphere or leaking carbon capture and storage systems.

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Hellenic karst waters: geogenic and anthropogenic processes affecting their geochemistry and quality (2023)

Li Vigni, L. ; Daskalopoulou, K. ; Calabrese, S. ; [et al.]

In: Scientific Reports

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Publication Date: 2023-10-24

Description: Karst hydrosystems represent one of the largest global drinking water resources, but they are extremely vulnerable to pollution. Climate change, high population density, intensive industrial, and agricultural activities are the principal causes of deterioration, both in terms of quality and quantity, of these resources. Samples from 172 natural karst springs were collected in the whole territory of Greece. To identify any geogenic contamination and/or anthropogenic pollution, analyses of their chemical compositions, in terms of major ions and trace elements, were performed and compared to the EU limits for drinking water. Based on chloride content, the collected karst springs were divided into two groups: low-chloride (〈 100 mg L−1) and high-chloride content (〉 100 mg L−1). An additional group of springs with calcium-sulfate composition was recognised. Nitrate concentrations were always below the EU limit (50 mg L−1), although some springs presented elevated concentrations. High contents in terms of trace elements, such as B, Sr, As, and Pb, sometimes exceeding the limits, were rarely found. The Greek karst waters can still be considered a good quality resource both for human consumption and for agriculture. The main issues derive from seawater intrusion in the aquifers along the coasts. Moreover, the main anthropogenic pollutant is nitrate, found in higher concentrations mostly in the same coastal areas where human activities are concentrated. Finally, high levels of potentially harmful trace elements (e.g. As, Se) are very limited and of natural origin (geothermal activity, ore deposits, etc.).

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Characterization of trace elements in thermal and mineral waters of Greece (2023)

Li Vigni, L. ; Daskalopoulou, K. ; Calabrese, S. ; [et al.]

In: Environmental Science and Pollution Research

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Publication Date: 2024-01-29

Description: Natural thermal and mineral waters are widely distributed along the Hellenic region and are related to the geodynamic regime of the country. The diverse lithological and tectonic settings they are found in reflect the great variability in their chemical and isotopic composition. The current study presents 276 (published and unpublished) trace element water data and discusses the sources and processes affecting the water by taking into consideration the framework of their geographic distribution. The dataset is divided in groups using temperature- and pH-related criteria. Results yield a wide range of concentrations, often related to the solubility properties of the individual elements and the factors impacting them (i.e. temperature, acidity, redox conditions and salinity). Many elements (e.g. alkalis, Ti, Sr, As and Tl) present a good correlation with temperature, which is in cases impacted by water rock interactions, while others (e.g. Be, Al, Cu, Se, Cd) exhibit either no relation or an inverse correlation with T possibly because they become oversaturated at higher temperatures in solid phases. A moderately constant inverse correlation is noticed for the vast majority of trace elements and pH, whereas no relationship between trace element concentrations and Eh was found. Seawater contamination and water-rock interaction seem to be the main natural processes that influence both salinity and elemental content. All in all, Greek thermomineral waters exceed occasionally the accepted limits representing in such cases serious harm to the environment and probably indirectly (through the water cycle) to human health.

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