3He/4He Signature of Magmatic Fluids from Telica (Nicaragua)
and Baru (Panama) Volcanoes, Central American Volcanic Arc
Author
dc.contributor.author
Rizzo, Andrea L.
Author
dc.contributor.author
Robidoux, Philippe
Author
dc.contributor.author
Aiuppa, Alessandro
Author
dc.contributor.author
Di Piazza, Andrea
Admission date
dc.date.accessioned
2023-07-21T21:14:16Z
Available date
dc.date.available
2023-07-21T21:14:16Z
Publication date
dc.date.issued
2022
Cita de ítem
dc.identifier.citation
Appl. Sci. 2022, 12, 4241
es_ES
Identifier
dc.identifier.other
10.3390/app12094241
Identifier
dc.identifier.uri
https://repositorio.uchile.cl/handle/2250/194938
Abstract
dc.description.abstract
Featured Application The use of noble gas isotopic signature of fluid inclusions is increasingly being applied as a complement to traditional volcanic gas sampling and monitoring techniques. The chemical signature of fluid inclusions trapped in minerals from volcanic rocks help in interpreting fluctuations in surface gas signature in response to changes in volcanic activity and interaction with shallow hydrothermal-crustal fluids, therefore representing an applied methodology to constrain the magmatic signature and survey volcanic hazards. Constraining the magmatic He-3/He-4 signature of fluids degassed from a magmatic system is crucial for making inferences on its mantle source. This is especially important in arc volcanism, where variations in the composition of the wedge potentially induced by slab sediment fluids must be distinguished from the effects of magma differentiation, degassing, and crustal contamination. The study of fluid inclusions (FIs) trapped in minerals of volcanic rocks is becoming an increasingly used methodology in geochemical studies that integrates the classical study of volcanic and geothermal fluids. Here, we report on the first noble gas (He, Ne, Ar) concentrations and isotopic ratios of FI in olivine (Ol) and pyroxene (Px) crystals separated from eruptive products of the Telica and Baru volcanoes, belonging to the Nicaraguan and Panamanian arc-segments of Central America Volcanic arc (CAVA). FIs from Telica yield air corrected He-3/He-4 (Rc/Ra) of 7.2-7.4 Ra in Ol and 6.1-7.3 in Px, while those from Baru give 7.1-8.0 Ra in Ol and 4.2-5.8 Ra in Px. After a data quality check and a comparison with previous He-3/He-4 measurements carried out on the same volcanoes and along CAVA, we constrained a magmatic Rc/Ra signature of 7.5 Ra for Telica and of 8.0 Ra for Baru, both within the MORB range (8 +/- 1 Ra). These He-3/He-4 differences also reflect variations in the respective arc-segments, which cannot be explained by radiogenic He-4 addition due to variable crust thickness, as the mantle beneath Nicaragua and Panama is at about 35 and 30 km, respectively. We instead highlight that the lowest He-3/He-4 signature observed in the Nicaraguan arc segment reflects a contamination of the underlying wedge by slab sediment fluids. Rc/Ra values up to 9.0 Ra are found at Pacaya volcano in Guatemala, where the crust is 45 km thick, while a He-3/He-4 signature of about 8.0 Ra was measured at Turrialba volcano in Costa Rica, which is similar to that of Baru, and reflects possible influence of slab melting, triggered by a change in subduction conditions and the contemporary subduction of the Galapagos hot-spot track below southern Costa Rica and western Panama.
es_ES
Patrocinador
dc.description.sponsorship
Ministry of Education, Universities and Research (MIUR) PRIN-2017LMNLAW
MDPI
(ANID) Fondecyt Iniciacion a la Investigacion de Philippe Robidoux, Etapa 2021 N11190846
Universita degli studi di Palermo (Italy)/Istituto Nazionale Previdenza Sociale INPS/Doctoral research scholarship for international students
Fonds Quebecois de Recherche Nature et technologies (FQRNT)
es_ES
Lenguage
dc.language.iso
en
es_ES
Publisher
dc.publisher
MDPI
es_ES
Type of license
dc.rights
Attribution-NonCommercial-NoDerivs 3.0 United States