Gas geochemistry of the magmatic-hydrothermal fluid reservoir in the Copahue-Caviahue Volcanic Complex (Argentina)

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Copahue volcano is part of the Caviahue-Copahue Volcanic Complex (CCVC), which is located in the southwestern sector of the Caviahue volcano-tectonic depression (Argentina-Chile). This depression is a pull-apart basin accommodating stresses between the southern Liquiñe-Ofqui strike slip and the nort...

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Autores principales: Agusto, M., Tassi, F., Caselli, A.T., Vaselli, O., Rouwet, D., Capaccioni, B., Caliro, S., Chiodini, G., Darrah, T.
Formato: JOUR
Materias:
Copahue volcano
Fluid geochemistry
Fumarolic fluid
Hydrothermal reservoir
Volcanic unrest
Copahue
Geochemical monitoring
Hydrothermal system
Isotope compositions
Isotope signatures
Isotope variation
Geothermal springs
Hydrochemistry
Inert gases
Isotopes
Volcanoes
Carbon dioxide
chemical composition
fumarole
helium isotope
hydrogeochemistry
hydrothermal fluid
hydrothermal system
isotopic composition
Argentina
Neuquen
Southern Volcanic Zone
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_03770273_v257_n_p44_Agusto
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_03770273_v257_n_p44_Agusto2023-10-03T15:31:22Z Gas geochemistry of the magmatic-hydrothermal fluid reservoir in the Copahue-Caviahue Volcanic Complex (Argentina) Agusto, M. Tassi, F. Caselli, A.T. Vaselli, O. Rouwet, D. Capaccioni, B. Caliro, S. Chiodini, G. Darrah, T. Copahue volcano Fluid geochemistry Fumarolic fluid Hydrothermal reservoir Volcanic unrest Copahue Fluid geochemistry Geochemical monitoring Hydrothermal system Isotope compositions Isotope signatures Isotope variation Volcanic unrest Geothermal springs Hydrochemistry Inert gases Isotopes Volcanoes Carbon dioxide chemical composition fumarole helium isotope hydrogeochemistry hydrothermal fluid hydrothermal system isotopic composition Argentina Copahue Neuquen Southern Volcanic Zone Copahue volcano is part of the Caviahue-Copahue Volcanic Complex (CCVC), which is located in the southwestern sector of the Caviahue volcano-tectonic depression (Argentina-Chile). This depression is a pull-apart basin accommodating stresses between the southern Liquiñe-Ofqui strike slip and the northern Copahue-Antiñir compressive fault systems, in a back-arc setting with respect to the Southern Andean Volcanic Zone. In this study, we present chemical (inorganic and organic) and isotope compositions (δ 13 C-CO 2 , δ 15 N, 3 He/ 4 He, 40 Ar/ 36 Ar, δ 13 C-CH 4 , δD-CH 4 , and δD-H 2 O and δ 18 O-H 2 O) of fumaroles and bubbling gases of thermal springs located at the foot of Copahue volcano sampled in 2006, 2007 and 2012. Helium isotope ratios, the highest observed for a Southern American volcano (R/R a up to 7.94), indicate a non-classic arc-like setting, but rather an extensional regime subdued to asthenospheric thinning. δ 13 C-CO 2 values (from -8.8‰ to -6.8‰ vs. V-PDB), δ 15 N values (+5.3‰ to +5.5‰ vs. Air) and CO 2 / 3 He ratios (from 1.4 to 8.8×10 9 ) suggest that the magmatic source is significantly affected by contamination of subducted sediments. Gases discharged from the northern sector of the CCVC show contribution of 3 He-poor fluids likely permeating through local fault systems. Despite the clear mantle isotope signature in the CCVC gases, the acidic gas species have suffered scrubbing processes by a hydrothermal system mainly recharged by meteoric water. Gas geothermometry in the H 2 O-CO 2 -CH 4 -CO-H 2 system suggests that CO and H 2 re-equilibrate in a separated vapor phase at 200°-220°C. On the contrary, rock-fluid interactions controlling CO 2 , CH 4 production from Sabatier reaction and C 3 H 8 dehydrogenation seem to occur within the hydrothermal reservoir at temperatures ranging from 250° to 300°C. Fumarole gases sampled in 2006-2007 show relatively low N 2 /He and N 2 /Ar ratios and high R/R a values with respect to those measured in 2012. Such compositional and isotope variations were likely related to injection of mafic magma that likely triggered the 2000 eruption. Therefore, changes affecting the magmatic system had a delayed effect on the chemistry of the CCVC gases due to the presence of the hydrothermal reservoir. However, geochemical monitoring activities mainly focused on the behavior of inert gas compounds (N 2 and He), should be increased to investigate the mechanism at the origin of the unrest started in 2011. © 2013 Elsevier B.V. Fil:Agusto, M. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Caselli, A.T. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_03770273_v257_n_p44_Agusto
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Copahue volcano
Fluid geochemistry
Fumarolic fluid
Hydrothermal reservoir
Volcanic unrest
Copahue
Fluid geochemistry
Geochemical monitoring
Hydrothermal system
Isotope compositions
Isotope signatures
Isotope variation
Volcanic unrest
Geothermal springs
Hydrochemistry
Inert gases
Isotopes
Volcanoes
Carbon dioxide
chemical composition
fumarole
helium isotope
hydrogeochemistry
hydrothermal fluid
hydrothermal system
isotopic composition
Argentina
Copahue
Neuquen
Southern Volcanic Zone
spellingShingle Copahue volcano
Fluid geochemistry
Fumarolic fluid
Hydrothermal reservoir
Volcanic unrest
Copahue
Fluid geochemistry
Geochemical monitoring
Hydrothermal system
Isotope compositions
Isotope signatures
Isotope variation
Volcanic unrest
Geothermal springs
Hydrochemistry
Inert gases
Isotopes
Volcanoes
Carbon dioxide
chemical composition
fumarole
helium isotope
hydrogeochemistry
hydrothermal fluid
hydrothermal system
isotopic composition
Argentina
Copahue
Neuquen
Southern Volcanic Zone
Agusto, M.
Tassi, F.
Caselli, A.T.
Vaselli, O.
Rouwet, D.
Capaccioni, B.
Caliro, S.
Chiodini, G.
Darrah, T.
Gas geochemistry of the magmatic-hydrothermal fluid reservoir in the Copahue-Caviahue Volcanic Complex (Argentina)
topic_facet Copahue volcano
Fluid geochemistry
Fumarolic fluid
Hydrothermal reservoir
Volcanic unrest
Copahue
Fluid geochemistry
Geochemical monitoring
Hydrothermal system
Isotope compositions
Isotope signatures
Isotope variation
Volcanic unrest
Geothermal springs
Hydrochemistry
Inert gases
Isotopes
Volcanoes
Carbon dioxide
chemical composition
fumarole
helium isotope
hydrogeochemistry
hydrothermal fluid
hydrothermal system
isotopic composition
Argentina
Copahue
Neuquen
Southern Volcanic Zone
description Copahue volcano is part of the Caviahue-Copahue Volcanic Complex (CCVC), which is located in the southwestern sector of the Caviahue volcano-tectonic depression (Argentina-Chile). This depression is a pull-apart basin accommodating stresses between the southern Liquiñe-Ofqui strike slip and the northern Copahue-Antiñir compressive fault systems, in a back-arc setting with respect to the Southern Andean Volcanic Zone. In this study, we present chemical (inorganic and organic) and isotope compositions (δ 13 C-CO 2 , δ 15 N, 3 He/ 4 He, 40 Ar/ 36 Ar, δ 13 C-CH 4 , δD-CH 4 , and δD-H 2 O and δ 18 O-H 2 O) of fumaroles and bubbling gases of thermal springs located at the foot of Copahue volcano sampled in 2006, 2007 and 2012. Helium isotope ratios, the highest observed for a Southern American volcano (R/R a up to 7.94), indicate a non-classic arc-like setting, but rather an extensional regime subdued to asthenospheric thinning. δ 13 C-CO 2 values (from -8.8‰ to -6.8‰ vs. V-PDB), δ 15 N values (+5.3‰ to +5.5‰ vs. Air) and CO 2 / 3 He ratios (from 1.4 to 8.8×10 9 ) suggest that the magmatic source is significantly affected by contamination of subducted sediments. Gases discharged from the northern sector of the CCVC show contribution of 3 He-poor fluids likely permeating through local fault systems. Despite the clear mantle isotope signature in the CCVC gases, the acidic gas species have suffered scrubbing processes by a hydrothermal system mainly recharged by meteoric water. Gas geothermometry in the H 2 O-CO 2 -CH 4 -CO-H 2 system suggests that CO and H 2 re-equilibrate in a separated vapor phase at 200°-220°C. On the contrary, rock-fluid interactions controlling CO 2 , CH 4 production from Sabatier reaction and C 3 H 8 dehydrogenation seem to occur within the hydrothermal reservoir at temperatures ranging from 250° to 300°C. Fumarole gases sampled in 2006-2007 show relatively low N 2 /He and N 2 /Ar ratios and high R/R a values with respect to those measured in 2012. Such compositional and isotope variations were likely related to injection of mafic magma that likely triggered the 2000 eruption. Therefore, changes affecting the magmatic system had a delayed effect on the chemistry of the CCVC gases due to the presence of the hydrothermal reservoir. However, geochemical monitoring activities mainly focused on the behavior of inert gas compounds (N 2 and He), should be increased to investigate the mechanism at the origin of the unrest started in 2011. © 2013 Elsevier B.V.
format JOUR
author Agusto, M.
Tassi, F.
Caselli, A.T.
Vaselli, O.
Rouwet, D.
Capaccioni, B.
Caliro, S.
Chiodini, G.
Darrah, T.
author_facet Agusto, M.
Tassi, F.
Caselli, A.T.
Vaselli, O.
Rouwet, D.
Capaccioni, B.
Caliro, S.
Chiodini, G.
Darrah, T.
author_sort Agusto, M.
title Gas geochemistry of the magmatic-hydrothermal fluid reservoir in the Copahue-Caviahue Volcanic Complex (Argentina)
title_short Gas geochemistry of the magmatic-hydrothermal fluid reservoir in the Copahue-Caviahue Volcanic Complex (Argentina)
title_full Gas geochemistry of the magmatic-hydrothermal fluid reservoir in the Copahue-Caviahue Volcanic Complex (Argentina)
title_fullStr Gas geochemistry of the magmatic-hydrothermal fluid reservoir in the Copahue-Caviahue Volcanic Complex (Argentina)
title_full_unstemmed Gas geochemistry of the magmatic-hydrothermal fluid reservoir in the Copahue-Caviahue Volcanic Complex (Argentina)
title_sort gas geochemistry of the magmatic-hydrothermal fluid reservoir in the copahue-caviahue volcanic complex (argentina)
url http://hdl.handle.net/20.500.12110/paper_03770273_v257_n_p44_Agusto
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