Evolution of Eocene to Oligocene arc-related volcanism in the North Patagonian Andes (39–41°S), prior to the break-up of the Farallon plate

Voluminous Paleogene magmatic rocks (44 to 29 Ma) are found in a retroarc position in the Northern Patagonian to Southern Central Andes (~ 39–42°S), whose origin remains controversial. Geochemical data in these Eocene to Oligocene volcanic associations are herein used to unravel their origin and und...

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Autores principales: Iannelli, S.B., Litvak, V.D., Fernández Paz, L., Folguera, A., Ramos, M.E., Ramos, V.A.
Formato: JOUR
Materias:
Arc volcanism
Eocene-Oligocene
Geochemistry
Patagonian Andean margin
Tectonic evolution
Geodynamics
Compositional variation
Geochemical data
Geochemical signatures
Oligocene
Plate configuration
Tectonics
Eocene
geochemistry
magmatism
subduction zone
tectonic evolution
tectonic plate
volcanism
Andes
Patagonia
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00401951_v696-697_n_p70_Iannelli
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_00401951_v696-697_n_p70_Iannelli2023-10-03T14:50:22Z Evolution of Eocene to Oligocene arc-related volcanism in the North Patagonian Andes (39–41°S), prior to the break-up of the Farallon plate Iannelli, S.B. Litvak, V.D. Fernández Paz, L. Folguera, A. Ramos, M.E. Ramos, V.A. Arc volcanism Eocene-Oligocene Geochemistry Patagonian Andean margin Tectonic evolution Geochemistry Geodynamics Arc volcanism Compositional variation Geochemical data Geochemical signatures Oligocene Patagonian Andean margin Plate configuration Tectonic evolution Tectonics Eocene geochemistry magmatism Oligocene subduction zone tectonic evolution tectonic plate volcanism Andes Patagonia Voluminous Paleogene magmatic rocks (44 to 29 Ma) are found in a retroarc position in the Northern Patagonian to Southern Central Andes (~ 39–42°S), whose origin remains controversial. Geochemical data in these Eocene to Oligocene volcanic associations are herein used to unravel their origin and understand changes in subduction parameters. Geochemical signatures indicate arc-related associations and reflect changing geodynamic boundary conditions of the Andean margin through time. In particular, Eocene magmatism (~ 44 Ma; Pilcaniyeu Belt) shows an alkaline-like signature and limited slab influence. Reported contemporaneous within-plate magmatism (~ 47–43 Ma) in an easternmost position reflects a more typical enriched source. Oligocene arc-like volcanism (~ 29 Ma; El Maitén Belt), which developed in an extensional retroarc setting, shows a higher contribution from slab-derived fluids and a calc-alkaline source. A comparison with younger arc-related magmas from the region (~ 26–20 Ma), emplaced in an intra- to retroarc position (Cura Mallín and Abanico basins), indicates a progressive increase in slab-signature, associated with a tholeiitic magma source. We propose that these compositional variations could be directly related to changes in plate configuration before and after the Farallon plate break-up and the initiation of a more orthogonal convergence typical of the present Andean-type subduction zone. © 2016 Elsevier B.V. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00401951_v696-697_n_p70_Iannelli
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Arc volcanism
Eocene-Oligocene
Geochemistry
Patagonian Andean margin
Tectonic evolution
Geochemistry
Geodynamics
Arc volcanism
Compositional variation
Geochemical data
Geochemical signatures
Oligocene
Patagonian Andean margin
Plate configuration
Tectonic evolution
Tectonics
Eocene
geochemistry
magmatism
Oligocene
subduction zone
tectonic evolution
tectonic plate
volcanism
Andes
Patagonia
spellingShingle Arc volcanism
Eocene-Oligocene
Geochemistry
Patagonian Andean margin
Tectonic evolution
Geochemistry
Geodynamics
Arc volcanism
Compositional variation
Geochemical data
Geochemical signatures
Oligocene
Patagonian Andean margin
Plate configuration
Tectonic evolution
Tectonics
Eocene
geochemistry
magmatism
Oligocene
subduction zone
tectonic evolution
tectonic plate
volcanism
Andes
Patagonia
Iannelli, S.B.
Litvak, V.D.
Fernández Paz, L.
Folguera, A.
Ramos, M.E.
Ramos, V.A.
Evolution of Eocene to Oligocene arc-related volcanism in the North Patagonian Andes (39–41°S), prior to the break-up of the Farallon plate
topic_facet Arc volcanism
Eocene-Oligocene
Geochemistry
Patagonian Andean margin
Tectonic evolution
Geochemistry
Geodynamics
Arc volcanism
Compositional variation
Geochemical data
Geochemical signatures
Oligocene
Patagonian Andean margin
Plate configuration
Tectonic evolution
Tectonics
Eocene
geochemistry
magmatism
Oligocene
subduction zone
tectonic evolution
tectonic plate
volcanism
Andes
Patagonia
description Voluminous Paleogene magmatic rocks (44 to 29 Ma) are found in a retroarc position in the Northern Patagonian to Southern Central Andes (~ 39–42°S), whose origin remains controversial. Geochemical data in these Eocene to Oligocene volcanic associations are herein used to unravel their origin and understand changes in subduction parameters. Geochemical signatures indicate arc-related associations and reflect changing geodynamic boundary conditions of the Andean margin through time. In particular, Eocene magmatism (~ 44 Ma; Pilcaniyeu Belt) shows an alkaline-like signature and limited slab influence. Reported contemporaneous within-plate magmatism (~ 47–43 Ma) in an easternmost position reflects a more typical enriched source. Oligocene arc-like volcanism (~ 29 Ma; El Maitén Belt), which developed in an extensional retroarc setting, shows a higher contribution from slab-derived fluids and a calc-alkaline source. A comparison with younger arc-related magmas from the region (~ 26–20 Ma), emplaced in an intra- to retroarc position (Cura Mallín and Abanico basins), indicates a progressive increase in slab-signature, associated with a tholeiitic magma source. We propose that these compositional variations could be directly related to changes in plate configuration before and after the Farallon plate break-up and the initiation of a more orthogonal convergence typical of the present Andean-type subduction zone. © 2016 Elsevier B.V.
format JOUR
author Iannelli, S.B.
Litvak, V.D.
Fernández Paz, L.
Folguera, A.
Ramos, M.E.
Ramos, V.A.
author_facet Iannelli, S.B.
Litvak, V.D.
Fernández Paz, L.
Folguera, A.
Ramos, M.E.
Ramos, V.A.
author_sort Iannelli, S.B.
title Evolution of Eocene to Oligocene arc-related volcanism in the North Patagonian Andes (39–41°S), prior to the break-up of the Farallon plate
title_short Evolution of Eocene to Oligocene arc-related volcanism in the North Patagonian Andes (39–41°S), prior to the break-up of the Farallon plate
title_full Evolution of Eocene to Oligocene arc-related volcanism in the North Patagonian Andes (39–41°S), prior to the break-up of the Farallon plate
title_fullStr Evolution of Eocene to Oligocene arc-related volcanism in the North Patagonian Andes (39–41°S), prior to the break-up of the Farallon plate
title_full_unstemmed Evolution of Eocene to Oligocene arc-related volcanism in the North Patagonian Andes (39–41°S), prior to the break-up of the Farallon plate
title_sort evolution of eocene to oligocene arc-related volcanism in the north patagonian andes (39–41°s), prior to the break-up of the farallon plate
url http://hdl.handle.net/20.500.12110/paper_00401951_v696-697_n_p70_Iannelli
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