Structure and tectonic history of the foreland basins of southernmost South America

The common elements and differences of the neighboring Austral (Magallanes), Malvinas and South Malvinas (South Falkland) sedimentary basins are described and analyzed. The tectonic history of these basins involves Triassic to Jurassic crustal stretching, an ensuing Early Cretaceous thermal subsiden...

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Main Authors: Ghiglione, M.C., Quinteros, J., Yagupsky, D., Bonillo-Martínez, P., Hlebszevtich, J., Ramos, V.A., Vergani, G., Figueroa, D., Quesada, S., Zapata, y.T.
Format: Journal/Newspaper
Language:unknown
Subjects:
Effective elastic thickness
Finite element numerical model
Flexural model
Foreland basin system
Structural evolution
basin evolution
compression
crustal evolution
deformation
depocenter
extensional tectonics
finite element method
fold and thrust belt
forearc basin
foreland basin
Jurassic
normal fault
numerical model
sedimentary basin
tectonic evolution
tectonic plate
transpression
Triassic
uplift
Antarctica
Austral Basin
Drake Passage
Antarc*
Online Access:https://hdl.handle.net/20.500.12110/paper_08959811_v29_n2_p262_Ghiglione
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spelling ftunibueairesbd:todo:paper_08959811_v29_n2_p262_Ghiglione 2023-10-29T02:32:12+01:00 Structure and tectonic history of the foreland basins of southernmost South America Ghiglione, M.C. Quinteros, J. Yagupsky, D. Bonillo-Martínez, P. Hlebszevtich, J. Ramos, V.A. Vergani, G. Figueroa, D. Quesada, S. Zapata, y.T. https://hdl.handle.net/20.500.12110/paper_08959811_v29_n2_p262_Ghiglione unknown http://hdl.handle.net/20.500.12110/paper_08959811_v29_n2_p262_Ghiglione info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar Effective elastic thickness Finite element numerical model Flexural model Foreland basin system Structural evolution basin evolution compression crustal evolution deformation depocenter extensional tectonics finite element method fold and thrust belt forearc basin foreland basin Jurassic normal fault numerical model sedimentary basin tectonic evolution tectonic plate transpression Triassic uplift Antarctica Austral Basin Drake Passage JOUR ftunibueairesbd https://doi.org/20.500.12110/paper_08959811_v29_n2_p262_Ghiglione 2023-10-05T01:35:54Z The common elements and differences of the neighboring Austral (Magallanes), Malvinas and South Malvinas (South Falkland) sedimentary basins are described and analyzed. The tectonic history of these basins involves Triassic to Jurassic crustal stretching, an ensuing Early Cretaceous thermal subsidence in the retroarc, followed by a Late Cretaceous-Paleogene compressional phase, and a Neogene to present-day deactivation of the fold-thrust belt dominated by wrench deformation. A concomitant Late Cretaceous onset of the foreland phase in the three basins and an integrated history during the Late Cretaceous-Cenozoic are proposed. The main lower Paleocene-lower Eocene initial foredeep depocenters were bounding the basement domain and are now deformed into the thin-skinned fold-thrust belts. A few extensional depocenters developed in the Austral and Malvinas basins during late Paleocene-early Eocene times due to a temporary extensional regime resulting from an acceleration in the separation rate between South America and Antarctica preceding the initial opening of the Drake Passage. These extensional depocenters were superimposed to the previous distal foredeep depocenter, postdating the initiation of the foredeep phase and the onset of compressional deformation. Another pervasive set of normal faults of Paleocene to Recent age that can be recognized throughout the basins are interpreted to be a consequence of flexural bending of the lithosphere, in agreement with a previous study from South Malvinas basin. Contractional deformation was replaced by transpressive kinematics during the Oligocene due to a major tectonic plate reorganization. Presently, while the South Malvinas basin is dominated by the transpressive uplift of its active margin with minor sediment supply, the westward basins undergo localized development of pull-apart depocenters and transpressional uplift of previous structures. The effective elastic thickness of the lithosphere for different sections of each basin is calculated using a dynamic finite ... Journal/Newspaper Antarc* Antarctica Drake Passage Biblioteca Digital FCEN-UBA (Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires)
institution Open Polar
collection Biblioteca Digital FCEN-UBA (Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires)
op_collection_id ftunibueairesbd
language unknown
topic Effective elastic thickness
Finite element numerical model
Flexural model
Foreland basin system
Structural evolution
basin evolution
compression
crustal evolution
deformation
depocenter
extensional tectonics
finite element method
fold and thrust belt
forearc basin
foreland basin
Jurassic
normal fault
numerical model
sedimentary basin
tectonic evolution
tectonic plate
transpression
Triassic
uplift
Antarctica
Austral Basin
Drake Passage
spellingShingle Effective elastic thickness
Finite element numerical model
Flexural model
Foreland basin system
Structural evolution
basin evolution
compression
crustal evolution
deformation
depocenter
extensional tectonics
finite element method
fold and thrust belt
forearc basin
foreland basin
Jurassic
normal fault
numerical model
sedimentary basin
tectonic evolution
tectonic plate
transpression
Triassic
uplift
Antarctica
Austral Basin
Drake Passage
Ghiglione, M.C.
Quinteros, J.
Yagupsky, D.
Bonillo-Martínez, P.
Hlebszevtich, J.
Ramos, V.A.
Vergani, G.
Figueroa, D.
Quesada, S.
Zapata, y.T.
Structure and tectonic history of the foreland basins of southernmost South America
topic_facet Effective elastic thickness
Finite element numerical model
Flexural model
Foreland basin system
Structural evolution
basin evolution
compression
crustal evolution
deformation
depocenter
extensional tectonics
finite element method
fold and thrust belt
forearc basin
foreland basin
Jurassic
normal fault
numerical model
sedimentary basin
tectonic evolution
tectonic plate
transpression
Triassic
uplift
Antarctica
Austral Basin
Drake Passage
description The common elements and differences of the neighboring Austral (Magallanes), Malvinas and South Malvinas (South Falkland) sedimentary basins are described and analyzed. The tectonic history of these basins involves Triassic to Jurassic crustal stretching, an ensuing Early Cretaceous thermal subsidence in the retroarc, followed by a Late Cretaceous-Paleogene compressional phase, and a Neogene to present-day deactivation of the fold-thrust belt dominated by wrench deformation. A concomitant Late Cretaceous onset of the foreland phase in the three basins and an integrated history during the Late Cretaceous-Cenozoic are proposed. The main lower Paleocene-lower Eocene initial foredeep depocenters were bounding the basement domain and are now deformed into the thin-skinned fold-thrust belts. A few extensional depocenters developed in the Austral and Malvinas basins during late Paleocene-early Eocene times due to a temporary extensional regime resulting from an acceleration in the separation rate between South America and Antarctica preceding the initial opening of the Drake Passage. These extensional depocenters were superimposed to the previous distal foredeep depocenter, postdating the initiation of the foredeep phase and the onset of compressional deformation. Another pervasive set of normal faults of Paleocene to Recent age that can be recognized throughout the basins are interpreted to be a consequence of flexural bending of the lithosphere, in agreement with a previous study from South Malvinas basin. Contractional deformation was replaced by transpressive kinematics during the Oligocene due to a major tectonic plate reorganization. Presently, while the South Malvinas basin is dominated by the transpressive uplift of its active margin with minor sediment supply, the westward basins undergo localized development of pull-apart depocenters and transpressional uplift of previous structures. The effective elastic thickness of the lithosphere for different sections of each basin is calculated using a dynamic finite ...
format Journal/Newspaper
author Ghiglione, M.C.
Quinteros, J.
Yagupsky, D.
Bonillo-Martínez, P.
Hlebszevtich, J.
Ramos, V.A.
Vergani, G.
Figueroa, D.
Quesada, S.
Zapata, y.T.
author_facet Ghiglione, M.C.
Quinteros, J.
Yagupsky, D.
Bonillo-Martínez, P.
Hlebszevtich, J.
Ramos, V.A.
Vergani, G.
Figueroa, D.
Quesada, S.
Zapata, y.T.
author_sort Ghiglione, M.C.
title Structure and tectonic history of the foreland basins of southernmost South America
title_short Structure and tectonic history of the foreland basins of southernmost South America
title_full Structure and tectonic history of the foreland basins of southernmost South America
title_fullStr Structure and tectonic history of the foreland basins of southernmost South America
title_full_unstemmed Structure and tectonic history of the foreland basins of southernmost South America
title_sort structure and tectonic history of the foreland basins of southernmost south america
url https://hdl.handle.net/20.500.12110/paper_08959811_v29_n2_p262_Ghiglione
genre Antarc*
Antarctica
Drake Passage
genre_facet Antarc*
Antarctica
Drake Passage
op_relation http://hdl.handle.net/20.500.12110/paper_08959811_v29_n2_p262_Ghiglione
op_rights info:eu-repo/semantics/openAccess
http://creativecommons.org/licenses/by/2.5/ar
op_doi https://doi.org/20.500.12110/paper_08959811_v29_n2_p262_Ghiglione
_version_ 1781053374103289856

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