The southern and southeastern rim of the present caldera (La Fossa caldera) at Vulcano Island (Aeolian Islands, Italy) is crosscut by a network of fractures filled with calcite and minor chalcedony. Fluid inclusion studies indicate that both mineral phases were deposited from hydrothermal solutions. Several calcite samples were analyzed and their U, Sr, Nd, O and C isotopic composition was determined. UTh geochronological data suggest two discrete depositional episodes: one at 50 ka (southern rim) and the other at 25 ka (southeastern rim). Oxygen isotopic compositions, 87Sr/86Sr and 234U/238U ratios exclude that seawater was involved significantly in the hydrothermal system, in agreement with fluid inclusion studies which did not document the presence of NaCl. The Nd and Sr isotopic composition of calcite reflects the composition of the host rocks. The oxygen isotopic composition excludes a post-depositional interaction with meteoric water and suggests a depositional temperature consistent with that obtained from the fluid inclusion study (160–170 °C), assuming equilibrium conditions and a fluid isotopic composition close to present-day steam emissions. The positive correlation between U content and C isotopic composition indicates a rapid change in CO2 pressure during calcite deposition. This observation is consistent with a rapid fluid ascent, likely connected to two phases of collapse of the La Fossa caldera. The ages of the calcites which fill the fractures at the La Fossa caldera indicate the activation time of the fracture systems which, in turn, are connected to the above mentioned phases of the caldera collapse.

Voltaggio, M., Barbieri, M., Branca, M., Castorina, F., Taddeucci, A., Tecce, F., et al. (1997). Calcite filling fractures in volcanic environment (Vulcano Island, Italy): contribution of geochronological and isotopic studies to vulcanotectonics. JOURNAL OF VOLCANOLOGY AND GEOTHERMAL RESEARCH, 75, 271-282.

Calcite filling fractures in volcanic environment (Vulcano Island, Italy): contribution of geochronological and isotopic studies to vulcanotectonics

TUCCIMEI, Paola;
1997-01-01

Abstract

The southern and southeastern rim of the present caldera (La Fossa caldera) at Vulcano Island (Aeolian Islands, Italy) is crosscut by a network of fractures filled with calcite and minor chalcedony. Fluid inclusion studies indicate that both mineral phases were deposited from hydrothermal solutions. Several calcite samples were analyzed and their U, Sr, Nd, O and C isotopic composition was determined. UTh geochronological data suggest two discrete depositional episodes: one at 50 ka (southern rim) and the other at 25 ka (southeastern rim). Oxygen isotopic compositions, 87Sr/86Sr and 234U/238U ratios exclude that seawater was involved significantly in the hydrothermal system, in agreement with fluid inclusion studies which did not document the presence of NaCl. The Nd and Sr isotopic composition of calcite reflects the composition of the host rocks. The oxygen isotopic composition excludes a post-depositional interaction with meteoric water and suggests a depositional temperature consistent with that obtained from the fluid inclusion study (160–170 °C), assuming equilibrium conditions and a fluid isotopic composition close to present-day steam emissions. The positive correlation between U content and C isotopic composition indicates a rapid change in CO2 pressure during calcite deposition. This observation is consistent with a rapid fluid ascent, likely connected to two phases of collapse of the La Fossa caldera. The ages of the calcites which fill the fractures at the La Fossa caldera indicate the activation time of the fracture systems which, in turn, are connected to the above mentioned phases of the caldera collapse.
1997
Voltaggio, M., Barbieri, M., Branca, M., Castorina, F., Taddeucci, A., Tecce, F., et al. (1997). Calcite filling fractures in volcanic environment (Vulcano Island, Italy): contribution of geochronological and isotopic studies to vulcanotectonics. JOURNAL OF VOLCANOLOGY AND GEOTHERMAL RESEARCH, 75, 271-282.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/131851
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