Late Cretaceous to recent plate motions in western South America revisited

The Andean Cordillera has evolved since the Late Cretaceous in the context of subduction of oceanic lithosphere beneath continental lithosphere, making the kinematics between South America and its adjacent oceanic plates in the Pacific basin valuable to analyze the development of the Andean orogen....

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Bibliographic Details
Main Authors: Somoza, R., Ghidella, M.E.
Format: Journal/Newspaper
Language:unknown
Subjects:
Andes
Cenozoic
Convergence
Late Cretaceous
Continental lithosphere
Convergence rates
Hot-spot model
Late Neogene
Late Oligocene
Nazca plate
Neo genes
Oceanic lithosphere
Oceanic plate
Patagonia
Plate motions
South America
Triple junction
Lithology
Tectonics
Andean orogeny
Cretaceous
deformation
hot spot
plate motion
subduction
trench
Chile
Pacific Ocean
Peru
Antarc*
Antarctic
Online Access:https://hdl.handle.net/20.500.12110/paper_0012821X_v331-332_n_p152_Somoza
id ftunibueairesbd:todo:paper_0012821X_v331-332_n_p152_Somoza
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spelling ftunibueairesbd:todo:paper_0012821X_v331-332_n_p152_Somoza 2023-10-29T02:31:46+01:00 Late Cretaceous to recent plate motions in western South America revisited Somoza, R. Ghidella, M.E. https://hdl.handle.net/20.500.12110/paper_0012821X_v331-332_n_p152_Somoza unknown http://hdl.handle.net/20.500.12110/paper_0012821X_v331-332_n_p152_Somoza info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar Andes Cenozoic Convergence Late Cretaceous Continental lithosphere Convergence rates Hot-spot model Late Neogene Late Oligocene Nazca plate Neo genes Oceanic lithosphere Oceanic plate Patagonia Plate motions South America Triple junction Lithology Tectonics Andean orogeny Cretaceous deformation hot spot plate motion subduction trench Chile Pacific Ocean Peru JOUR ftunibueairesbd https://doi.org/20.500.12110/paper_0012821X_v331-332_n_p152_Somoza 2023-10-05T01:18:48Z The Andean Cordillera has evolved since the Late Cretaceous in the context of subduction of oceanic lithosphere beneath continental lithosphere, making the kinematics between South America and its adjacent oceanic plates in the Pacific basin valuable to analyze the development of the Andean orogen. The latest Cretaceous-Cenozoic convergence history in western South America may be divided into three stages. The youngest Stage 1 (25-0. Ma) is characterized by ENE directed convergence of the Nazca plate toward most of South America, and by ~. E-W subduction of the Antarctic plate beneath southern Patagonia. The Nazca-South America convergence rate in Stage 1 shows a continuous decrease from the highest values in the Cenozoic (~. 15. cm/yr) to the present day values from GPS measurements (~. 7. cm/yr). Stage 2 (47-28. Ma) is characterized by NE directed subduction of Farallon with the convergence rate remaining almost constant during the entire interval. In those times obliquity was dextral in Chile, sinistral in southern Peru, while almost head-on convergence occurred in central and northern Peru. During latest Cretaceous to Early Eocene times (Stage 3) the Farallon plate was subducted beneath PerĂº and the Phoenix plate was subducted farther south, where a triple junction migrated southward along the Chilean margin. The subduction of the Farallon plate was rather slow with variable direction imposed by the position of the triple junction, whereas subduction of the Phoenix plate was rapid (> 10. cm/yr) and ESE directed. We present a working hypothesis suggesting no major changes in the age of subducted lithosphere in the Chile trench from Middle Eocene to Late Oligocene, followed by subduction of progressively older oceanic lithosphere in the early Neogene and progressively younger lithosphere during the late Neogene and the Quaternary. In addition, it is shown that South American motion as predicted by available hotspot models has insufficient resolution to be applied to the analysis of Cenozoic Andean ... Journal/Newspaper Antarc* Antarctic 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 Andes
Cenozoic
Convergence
Late Cretaceous
Continental lithosphere
Convergence rates
Hot-spot model
Late Neogene
Late Oligocene
Nazca plate
Neo genes
Oceanic lithosphere
Oceanic plate
Patagonia
Plate motions
South America
Triple junction
Lithology
Tectonics
Andean orogeny
Cretaceous
deformation
hot spot
plate motion
subduction
trench
Chile
Pacific Ocean
Peru
spellingShingle Andes
Cenozoic
Convergence
Late Cretaceous
Continental lithosphere
Convergence rates
Hot-spot model
Late Neogene
Late Oligocene
Nazca plate
Neo genes
Oceanic lithosphere
Oceanic plate
Patagonia
Plate motions
South America
Triple junction
Lithology
Tectonics
Andean orogeny
Cretaceous
deformation
hot spot
plate motion
subduction
trench
Chile
Pacific Ocean
Peru
Somoza, R.
Ghidella, M.E.
Late Cretaceous to recent plate motions in western South America revisited
topic_facet Andes
Cenozoic
Convergence
Late Cretaceous
Continental lithosphere
Convergence rates
Hot-spot model
Late Neogene
Late Oligocene
Nazca plate
Neo genes
Oceanic lithosphere
Oceanic plate
Patagonia
Plate motions
South America
Triple junction
Lithology
Tectonics
Andean orogeny
Cretaceous
deformation
hot spot
plate motion
subduction
trench
Chile
Pacific Ocean
Peru
description The Andean Cordillera has evolved since the Late Cretaceous in the context of subduction of oceanic lithosphere beneath continental lithosphere, making the kinematics between South America and its adjacent oceanic plates in the Pacific basin valuable to analyze the development of the Andean orogen. The latest Cretaceous-Cenozoic convergence history in western South America may be divided into three stages. The youngest Stage 1 (25-0. Ma) is characterized by ENE directed convergence of the Nazca plate toward most of South America, and by ~. E-W subduction of the Antarctic plate beneath southern Patagonia. The Nazca-South America convergence rate in Stage 1 shows a continuous decrease from the highest values in the Cenozoic (~. 15. cm/yr) to the present day values from GPS measurements (~. 7. cm/yr). Stage 2 (47-28. Ma) is characterized by NE directed subduction of Farallon with the convergence rate remaining almost constant during the entire interval. In those times obliquity was dextral in Chile, sinistral in southern Peru, while almost head-on convergence occurred in central and northern Peru. During latest Cretaceous to Early Eocene times (Stage 3) the Farallon plate was subducted beneath PerĂº and the Phoenix plate was subducted farther south, where a triple junction migrated southward along the Chilean margin. The subduction of the Farallon plate was rather slow with variable direction imposed by the position of the triple junction, whereas subduction of the Phoenix plate was rapid (> 10. cm/yr) and ESE directed. We present a working hypothesis suggesting no major changes in the age of subducted lithosphere in the Chile trench from Middle Eocene to Late Oligocene, followed by subduction of progressively older oceanic lithosphere in the early Neogene and progressively younger lithosphere during the late Neogene and the Quaternary. In addition, it is shown that South American motion as predicted by available hotspot models has insufficient resolution to be applied to the analysis of Cenozoic Andean ...
format Journal/Newspaper
author Somoza, R.
Ghidella, M.E.
author_facet Somoza, R.
Ghidella, M.E.
author_sort Somoza, R.
title Late Cretaceous to recent plate motions in western South America revisited
title_short Late Cretaceous to recent plate motions in western South America revisited
title_full Late Cretaceous to recent plate motions in western South America revisited
title_fullStr Late Cretaceous to recent plate motions in western South America revisited
title_full_unstemmed Late Cretaceous to recent plate motions in western South America revisited
title_sort late cretaceous to recent plate motions in western south america revisited
url https://hdl.handle.net/20.500.12110/paper_0012821X_v331-332_n_p152_Somoza
genre Antarc*
Antarctic
genre_facet Antarc*
Antarctic
op_relation http://hdl.handle.net/20.500.12110/paper_0012821X_v331-332_n_p152_Somoza
op_rights info:eu-repo/semantics/openAccess
http://creativecommons.org/licenses/by/2.5/ar
op_doi https://doi.org/20.500.12110/paper_0012821X_v331-332_n_p152_Somoza
_version_ 1781052533472493568

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