Latest Neoproterozoic to Mid-Cambrian age for the main deformation phases of the Transantarctic Mountains: new stratigraphic and isotopic constraints from the Pensacola Mountains, Antarctica

New isotopic ages and a fresh understanding of stratigraphic relations among siliciclastic strata in the Pensacola Mountains along the northern margin of the East Antarctic craton result in removal of some constraints for the Proterozoic break-up of Rodinia and necessitate revision of the subsequent...

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Main Authors: Rowell, A. J., Van Schmus, W. R., Storey, B. C., Fetter, A. H., Evans, K. R.
Format: Article in Journal/Newspaper
Language:English
Published: GEOLOGICAL SOC PUBL HOUSE 2004
Subjects:
Cambrian
Neoproterozoic
Antarctica
Orogeny
Absolute age
Northern Victoria land
Robertson Bay terrane
Cleavage development
Tectonic evolution
Beardmore orogeny
East Antarctica
Glacier area
Ross orogen
Gondwana
Pb
http://id.worldcat.org/fast/1352218
http://id.worldcat.org/fast/1239992
http://id.worldcat.org/fast/1048386
http://id.worldcat.org/fast/1243627
http://id.worldcat.org/fast/1715447
Cambrian Geologic Period
Antarctica > East Antarctica
Gondwana (Continent)
Antarctic
Beardmore
Bowers
Hannah
Hannah Ridge
Pensacola Mountains
Robertson Bay
Transantarctic Mountains
Victoria Land
Antarc*
Antarctica Journal
Online Access:http://hdl.handle.net/1808/103
id ftunivkansas:oai:kuscholarworks.ku.edu:1808/103
record_format openpolar
spelling ftunivkansas:oai:kuscholarworks.ku.edu:1808/103 2023-05-15T13:55:32+02:00 Latest Neoproterozoic to Mid-Cambrian age for the main deformation phases of the Transantarctic Mountains: new stratigraphic and isotopic constraints from the Pensacola Mountains, Antarctica Rowell, A. J. Van Schmus, W. R. Storey, B. C. Fetter, A. H. Evans, K. R. 2004-11-10T18:00:17Z 426846 bytes application/pdf http://hdl.handle.net/1808/103 en_US eng GEOLOGICAL SOC PUBL HOUSE Rowell, AJ; Van Schmus, WR; Storey, BC; Fetter, AH; Evans, KR. Latest Neoproterozoic to Mid-Cambrian age for the main deformation phases of the Transantarctic Mountains: new stratigraphic and isotopic constraints from the Pensacola Mountains, Antarctica. JOURNAL OF THE GEOLOGICAL SOCIETY. 2001 March; 158: 295 - 308. ISI:000172853600002 http://hdl.handle.net/1808/103 openAccess Cambrian Neoproterozoic Antarctica Orogeny Absolute age Northern Victoria land Robertson Bay terrane Cleavage development Tectonic evolution Beardmore orogeny East Antarctica Glacier area Ross orogen Gondwana Pb http://id.worldcat.org/fast/1352218 http://id.worldcat.org/fast/1239992 http://id.worldcat.org/fast/1048386 http://id.worldcat.org/fast/1243627 http://id.worldcat.org/fast/1715447 Cambrian Geologic Period Antarctica--East Antarctica Gondwana (Continent) Article 2004 ftunivkansas 2022-08-26T13:08:37Z New isotopic ages and a fresh understanding of stratigraphic relations among siliciclastic strata in the Pensacola Mountains along the northern margin of the East Antarctic craton result in removal of some constraints for the Proterozoic break-up of Rodinia and necessitate revision of the subsequent history of the East Antarctic margin. These rocks, formerly all included in the Patuxent Formation, were thought to be of mid-Neoproterozoic age, to have formed as a consequence of Rodinia rifting, and to have been deformed during a Neoproterozoic orogenic event. Our data show, in contrast, that these siliciclastic strata were deposited in two chronologically distinct basins. The older basin, in which the Hannah Ridge Formation (new name) accumulated, received sediment that contains detrital zircons of latest Neoproterozoic or Early Cambrian age. It was deformed and its contents uplifted and eroded prior to the late Mid-Cambrian in an orogenic event that we interpret as the early stage(s) of the Ross orogeny. The second basin formed later, accumulated turbidite-rich sediments of the redefined Patuxent Formation of Mid- and probably Late Cambrian age, and was subsequently deformed, possibly in Ordovician time. Review of both biostratigraphic and isotopic ages along the length of the Transantarctic Mountains indicates that almost everywhere the main episodes of deformation predate 500 Ma and are thus older than latest Mid-Cambrian, rather than Ordovician, as they are commonly considered to be. Only in the accreted Bowers and Robertson Bay terranes of northern Victoria land, which reveal no clear record of pre-latest Mid-Cambrian or older folding, is the principal episode of Ross orogenic deformation demonstrably younger than Late Cambrian. Journal of the Geological Society http://www.ingentaconnect.com/content/geol/jgs;jsessionid=1tcapo57fbrqv.victoria? Article in Journal/Newspaper Antarc* Antarctic Antarctica Antarctica Journal East Antarctica Victoria Land The University of Kansas: KU ScholarWorks Antarctic Beardmore ENVELOPE(174.900,174.900,-83.350,-83.350) Bowers ENVELOPE(164.083,164.083,-85.000,-85.000) East Antarctica Hannah ENVELOPE(-60.613,-60.613,-62.654,-62.654) Hannah Ridge ENVELOPE(-54.992,-54.992,-83.605,-83.605) Pensacola Mountains ENVELOPE(-58.000,-58.000,-83.500,-83.500) Robertson Bay ENVELOPE(170.000,170.000,-71.417,-71.417) Transantarctic Mountains Victoria Land
institution Open Polar
collection The University of Kansas: KU ScholarWorks
op_collection_id ftunivkansas
language English
topic Cambrian
Neoproterozoic
Antarctica
Orogeny
Absolute age
Northern Victoria land
Robertson Bay terrane
Cleavage development
Tectonic evolution
Beardmore orogeny
East Antarctica
Glacier area
Ross orogen
Gondwana
Pb
http://id.worldcat.org/fast/1352218
http://id.worldcat.org/fast/1239992
http://id.worldcat.org/fast/1048386
http://id.worldcat.org/fast/1243627
http://id.worldcat.org/fast/1715447
Cambrian Geologic Period
Antarctica--East Antarctica
Gondwana (Continent)
spellingShingle Cambrian
Neoproterozoic
Antarctica
Orogeny
Absolute age
Northern Victoria land
Robertson Bay terrane
Cleavage development
Tectonic evolution
Beardmore orogeny
East Antarctica
Glacier area
Ross orogen
Gondwana
Pb
http://id.worldcat.org/fast/1352218
http://id.worldcat.org/fast/1239992
http://id.worldcat.org/fast/1048386
http://id.worldcat.org/fast/1243627
http://id.worldcat.org/fast/1715447
Cambrian Geologic Period
Antarctica--East Antarctica
Gondwana (Continent)
Rowell, A. J.
Van Schmus, W. R.
Storey, B. C.
Fetter, A. H.
Evans, K. R.
Latest Neoproterozoic to Mid-Cambrian age for the main deformation phases of the Transantarctic Mountains: new stratigraphic and isotopic constraints from the Pensacola Mountains, Antarctica
topic_facet Cambrian
Neoproterozoic
Antarctica
Orogeny
Absolute age
Northern Victoria land
Robertson Bay terrane
Cleavage development
Tectonic evolution
Beardmore orogeny
East Antarctica
Glacier area
Ross orogen
Gondwana
Pb
http://id.worldcat.org/fast/1352218
http://id.worldcat.org/fast/1239992
http://id.worldcat.org/fast/1048386
http://id.worldcat.org/fast/1243627
http://id.worldcat.org/fast/1715447
Cambrian Geologic Period
Antarctica--East Antarctica
Gondwana (Continent)
description New isotopic ages and a fresh understanding of stratigraphic relations among siliciclastic strata in the Pensacola Mountains along the northern margin of the East Antarctic craton result in removal of some constraints for the Proterozoic break-up of Rodinia and necessitate revision of the subsequent history of the East Antarctic margin. These rocks, formerly all included in the Patuxent Formation, were thought to be of mid-Neoproterozoic age, to have formed as a consequence of Rodinia rifting, and to have been deformed during a Neoproterozoic orogenic event. Our data show, in contrast, that these siliciclastic strata were deposited in two chronologically distinct basins. The older basin, in which the Hannah Ridge Formation (new name) accumulated, received sediment that contains detrital zircons of latest Neoproterozoic or Early Cambrian age. It was deformed and its contents uplifted and eroded prior to the late Mid-Cambrian in an orogenic event that we interpret as the early stage(s) of the Ross orogeny. The second basin formed later, accumulated turbidite-rich sediments of the redefined Patuxent Formation of Mid- and probably Late Cambrian age, and was subsequently deformed, possibly in Ordovician time. Review of both biostratigraphic and isotopic ages along the length of the Transantarctic Mountains indicates that almost everywhere the main episodes of deformation predate 500 Ma and are thus older than latest Mid-Cambrian, rather than Ordovician, as they are commonly considered to be. Only in the accreted Bowers and Robertson Bay terranes of northern Victoria land, which reveal no clear record of pre-latest Mid-Cambrian or older folding, is the principal episode of Ross orogenic deformation demonstrably younger than Late Cambrian. Journal of the Geological Society http://www.ingentaconnect.com/content/geol/jgs;jsessionid=1tcapo57fbrqv.victoria?
format Article in Journal/Newspaper
author Rowell, A. J.
Van Schmus, W. R.
Storey, B. C.
Fetter, A. H.
Evans, K. R.
author_facet Rowell, A. J.
Van Schmus, W. R.
Storey, B. C.
Fetter, A. H.
Evans, K. R.
author_sort Rowell, A. J.
title Latest Neoproterozoic to Mid-Cambrian age for the main deformation phases of the Transantarctic Mountains: new stratigraphic and isotopic constraints from the Pensacola Mountains, Antarctica
title_short Latest Neoproterozoic to Mid-Cambrian age for the main deformation phases of the Transantarctic Mountains: new stratigraphic and isotopic constraints from the Pensacola Mountains, Antarctica
title_full Latest Neoproterozoic to Mid-Cambrian age for the main deformation phases of the Transantarctic Mountains: new stratigraphic and isotopic constraints from the Pensacola Mountains, Antarctica
title_fullStr Latest Neoproterozoic to Mid-Cambrian age for the main deformation phases of the Transantarctic Mountains: new stratigraphic and isotopic constraints from the Pensacola Mountains, Antarctica
title_full_unstemmed Latest Neoproterozoic to Mid-Cambrian age for the main deformation phases of the Transantarctic Mountains: new stratigraphic and isotopic constraints from the Pensacola Mountains, Antarctica
title_sort latest neoproterozoic to mid-cambrian age for the main deformation phases of the transantarctic mountains: new stratigraphic and isotopic constraints from the pensacola mountains, antarctica
publisher GEOLOGICAL SOC PUBL HOUSE
publishDate 2004
url http://hdl.handle.net/1808/103
long_lat ENVELOPE(174.900,174.900,-83.350,-83.350)
ENVELOPE(164.083,164.083,-85.000,-85.000)
ENVELOPE(-60.613,-60.613,-62.654,-62.654)
ENVELOPE(-54.992,-54.992,-83.605,-83.605)
ENVELOPE(-58.000,-58.000,-83.500,-83.500)
ENVELOPE(170.000,170.000,-71.417,-71.417)
geographic Antarctic
Beardmore
Bowers
East Antarctica
Hannah
Hannah Ridge
Pensacola Mountains
Robertson Bay
Transantarctic Mountains
Victoria Land
geographic_facet Antarctic
Beardmore
Bowers
East Antarctica
Hannah
Hannah Ridge
Pensacola Mountains
Robertson Bay
Transantarctic Mountains
Victoria Land
genre Antarc*
Antarctic
Antarctica
Antarctica Journal
East Antarctica
Victoria Land
genre_facet Antarc*
Antarctic
Antarctica
Antarctica Journal
East Antarctica
Victoria Land
op_relation Rowell, AJ; Van Schmus, WR; Storey, BC; Fetter, AH; Evans, KR. Latest Neoproterozoic to Mid-Cambrian age for the main deformation phases of the Transantarctic Mountains: new stratigraphic and isotopic constraints from the Pensacola Mountains, Antarctica. JOURNAL OF THE GEOLOGICAL SOCIETY. 2001 March; 158: 295 - 308.
ISI:000172853600002
http://hdl.handle.net/1808/103
op_rights openAccess
_version_ 1766262207647055872

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