Paleogeography of South America during the Jurassic

The study was carried out in four Lower Jurassic marine sections of Mendoza and Neuquén provinces, which are composed mainly by ammonite-bearing fine-grained sedimentary rocks with intercalated volcanic levels. Two magnetic components were isolated that were carried primarily by titanomagnetites and...

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Autor principal: Iglesia Llanos, M.P.
Formato: JOUR
Materias:
Ammonites
Jurassic
Neuquén Basin
Palaeogeography
Palaeomagnetism
ammonite
deposition
fine grained sediment
magnetization
paleogeography
paleomagnetism
remagnetization
Triassic
volcanic rock
Argentina
Neuquen Basin
South America
Ammonoidea
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00044822_v63_n4_p498_IglesiaLlanos
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_00044822_v63_n4_p498_IglesiaLlanos
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spelling todo:paper_00044822_v63_n4_p498_IglesiaLlanos2023-10-03T13:58:24Z Paleogeography of South America during the Jurassic Iglesia Llanos, M.P. Ammonites Jurassic Neuquén Basin Palaeogeography Palaeomagnetism ammonite deposition fine grained sediment Jurassic magnetization paleogeography paleomagnetism remagnetization Triassic volcanic rock Argentina Neuquen Basin South America Ammonoidea The study was carried out in four Lower Jurassic marine sections of Mendoza and Neuquén provinces, which are composed mainly by ammonite-bearing fine-grained sedimentary rocks with intercalated volcanic levels. Two magnetic components were isolated that were carried primarily by titanomagnetites and subordinately, by another mineral with high unblocking temperature/coercivity (titanohaematite?). Component A is soft and is interpreted as a recent remagnetisation. Component B on the other hand, is hard and would correspond to the Jurassic original magnetisation acquired during or soon after the deposition of the sedimentary and cooling of the volcanic rocks, according to the various field tests for palaeomagnetic stability and optical studies. Two palaeomagnetic poles were calculated for component B, one for the Hettangian-Sinemurian located at 223°E, 51°S, A95= 6°, N = 25, and the other for the Pliensbachian- Toarcian at 67°E, 74°S, A95= 5°, N = 52. Using these and other thoroughly selected Jurassic poles from stable South America, a new apparent polar wander path was constructed for the Late Triassic-Late Jurassic interval that is dissimilar to the ones proposed in the literature. In particular, the path shows a notorious cusp during the Early Jurassic that points out important continental latitudinal shifts and which is also observable in other continents from Pangea. Thus, the data obtained indicate that South America was placed during the Late Triassic to the Sinemurian, further to the south respect to the present-day position whereas in the Pliensbachian, it attained its northernmost location. At the end of the Early Jurassic, South America moved again to the south until in the Middle Jurassic reached almost present-day latitudes. Such latitudinal shifts are also supported by palaeobiogeographical data from the northern and southern hemispheres. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00044822_v63_n4_p498_IglesiaLlanos
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Ammonites
Jurassic
Neuquén Basin
Palaeogeography
Palaeomagnetism
ammonite
deposition
fine grained sediment
Jurassic
magnetization
paleogeography
paleomagnetism
remagnetization
Triassic
volcanic rock
Argentina
Neuquen Basin
South America
Ammonoidea
spellingShingle Ammonites
Jurassic
Neuquén Basin
Palaeogeography
Palaeomagnetism
ammonite
deposition
fine grained sediment
Jurassic
magnetization
paleogeography
paleomagnetism
remagnetization
Triassic
volcanic rock
Argentina
Neuquen Basin
South America
Ammonoidea
Iglesia Llanos, M.P.
Paleogeography of South America during the Jurassic
topic_facet Ammonites
Jurassic
Neuquén Basin
Palaeogeography
Palaeomagnetism
ammonite
deposition
fine grained sediment
Jurassic
magnetization
paleogeography
paleomagnetism
remagnetization
Triassic
volcanic rock
Argentina
Neuquen Basin
South America
Ammonoidea
description The study was carried out in four Lower Jurassic marine sections of Mendoza and Neuquén provinces, which are composed mainly by ammonite-bearing fine-grained sedimentary rocks with intercalated volcanic levels. Two magnetic components were isolated that were carried primarily by titanomagnetites and subordinately, by another mineral with high unblocking temperature/coercivity (titanohaematite?). Component A is soft and is interpreted as a recent remagnetisation. Component B on the other hand, is hard and would correspond to the Jurassic original magnetisation acquired during or soon after the deposition of the sedimentary and cooling of the volcanic rocks, according to the various field tests for palaeomagnetic stability and optical studies. Two palaeomagnetic poles were calculated for component B, one for the Hettangian-Sinemurian located at 223°E, 51°S, A95= 6°, N = 25, and the other for the Pliensbachian- Toarcian at 67°E, 74°S, A95= 5°, N = 52. Using these and other thoroughly selected Jurassic poles from stable South America, a new apparent polar wander path was constructed for the Late Triassic-Late Jurassic interval that is dissimilar to the ones proposed in the literature. In particular, the path shows a notorious cusp during the Early Jurassic that points out important continental latitudinal shifts and which is also observable in other continents from Pangea. Thus, the data obtained indicate that South America was placed during the Late Triassic to the Sinemurian, further to the south respect to the present-day position whereas in the Pliensbachian, it attained its northernmost location. At the end of the Early Jurassic, South America moved again to the south until in the Middle Jurassic reached almost present-day latitudes. Such latitudinal shifts are also supported by palaeobiogeographical data from the northern and southern hemispheres.
format JOUR
author Iglesia Llanos, M.P.
author_facet Iglesia Llanos, M.P.
author_sort Iglesia Llanos, M.P.
title Paleogeography of South America during the Jurassic
title_short Paleogeography of South America during the Jurassic
title_full Paleogeography of South America during the Jurassic
title_fullStr Paleogeography of South America during the Jurassic
title_full_unstemmed Paleogeography of South America during the Jurassic
title_sort paleogeography of south america during the jurassic
url http://hdl.handle.net/20.500.12110/paper_00044822_v63_n4_p498_IglesiaLlanos
work_keys_str_mv AT iglesiallanosmp paleogeographyofsouthamericaduringthejurassic
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