The Development of Paleoseaways around Antarctica

Gondwana, with East Antarctica as its center, began to fragment during Late Triassic to Early Jurassic time. With the exception of the Permian or older convergent Pacific margin of the Antarctic Peninsula and Thurston Island, the margins of Antarctic are rifted or transform margins. The earliest sea...

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Bibliographic Details
Main Authors: Lawver, LA, Gahagan, LM, Coffin, MF
Format: Book Part
Language:English
Published: American Geophysical Union 1992
Subjects:
Earth Sciences
Geology
Marine Geoscience
Antarctic
Antarctic Peninsula
Drake Passage
East Antarctica
Falkland Plateau
New Zealand
Pacific
Queen Maud Land
South Tasman Rise
The Antarctic
Thurston
Thurston Island
Victoria Land
Weddell
Weddell Sea
Antarc*
Antarctica
Online Access:https://doi.org/10.1029/AR056p0007
http://ecite.utas.edu.au/73905
id ftunivtasecite:oai:ecite.utas.edu.au:73905
record_format openpolar
spelling ftunivtasecite:oai:ecite.utas.edu.au:73905 2023-05-15T14:02:30+02:00 The Development of Paleoseaways around Antarctica Lawver, LA Gahagan, LM Coffin, MF 1992 application/pdf https://doi.org/10.1029/AR056p0007 http://ecite.utas.edu.au/73905 en eng American Geophysical Union http://ecite.utas.edu.au/73905/1/Lawver_et_al_AGU56_1992.pdf http://dx.doi.org/10.1029/AR056p0007 Lawver, LA and Gahagan, LM and Coffin, MF, The Development of Paleoseaways around Antarctica, The Antarctic Paleoenvironment: A perspective on global change: Part One, American Geophysical Union, J P Kennett and D A Warkne (ed), Washington DC, pp. 7-30. ISBN 0-87590-823-3 (1992) [Research Book Chapter] http://ecite.utas.edu.au/73905 Earth Sciences Geology Marine Geoscience Research Book Chapter NonPeerReviewed 1992 ftunivtasecite https://doi.org/10.1029/AR056p0007 2019-12-13T21:40:58Z Gondwana, with East Antarctica as its center, began to fragment during Late Triassic to Early Jurassic time. With the exception of the Permian or older convergent Pacific margin of the Antarctic Peninsula and Thurston Island, the margins of Antarctic are rifted or transform margins. The earliest seaway around the present-day margin of Antarctica developed during the Late Jurassic along the western part of Queen Maud Land of East Antarctica and may have included parts of the Weddell Sea margin of the Antarctic Peninsula. The next significant change occurred 130 Ma, with the opening of the South Atlantic and rifting of India from East Antarctica. Circulation of deep water into the South Atlantic was blocked by the Falkland Plateau, and open, deep water circulation between India and Antarctica was blocked by Sri Lanka. The Falkland Plateau cleared the southern tip of Africa 100 Ma, but circulation from the South Atlantic northward into the Central Atlantic probably did not begin until Santonian time. Slow spreading between Australia and Antarctica, and a complicated spreading regime between various New Zealand plates, may have opened a seaway as early as 80 Ma. However, major circulation was probably delayed until as late as 40 Ma, when Tasmania and the South Tasman Rise finally cleared north Victoria Land of East Antarctica. The final barrier to circumpolar circulation was in the region of southern South America and the northern Antarctic Peninsula. There, various continental fragments may have partially blocked Drake Passage until the Miocene. General cooling of the world's oceans accompanied early Tertiary opening between Australia and Antarctica and the later opening of Drake Passage. Book Part Antarc* Antarctic Antarctic Peninsula Antarctica Drake Passage East Antarctica Queen Maud Land Thurston Island Victoria Land Weddell Sea eCite UTAS (University of Tasmania) Antarctic Antarctic Peninsula Drake Passage East Antarctica Falkland Plateau ENVELOPE(-50.000,-50.000,-51.000,-51.000) New Zealand Pacific Queen Maud Land ENVELOPE(12.000,12.000,-72.500,-72.500) South Tasman Rise ENVELOPE(148.000,148.000,-47.500,-47.500) The Antarctic Thurston ENVELOPE(-97.500,-97.500,-71.833,-71.833) Thurston Island ENVELOPE(-99.000,-99.000,-72.167,-72.167) Victoria Land Weddell Weddell Sea 7 30
institution Open Polar
collection eCite UTAS (University of Tasmania)
op_collection_id ftunivtasecite
language English
topic Earth Sciences
Geology
Marine Geoscience
spellingShingle Earth Sciences
Geology
Marine Geoscience
Lawver, LA
Gahagan, LM
Coffin, MF
The Development of Paleoseaways around Antarctica
topic_facet Earth Sciences
Geology
Marine Geoscience
description Gondwana, with East Antarctica as its center, began to fragment during Late Triassic to Early Jurassic time. With the exception of the Permian or older convergent Pacific margin of the Antarctic Peninsula and Thurston Island, the margins of Antarctic are rifted or transform margins. The earliest seaway around the present-day margin of Antarctica developed during the Late Jurassic along the western part of Queen Maud Land of East Antarctica and may have included parts of the Weddell Sea margin of the Antarctic Peninsula. The next significant change occurred 130 Ma, with the opening of the South Atlantic and rifting of India from East Antarctica. Circulation of deep water into the South Atlantic was blocked by the Falkland Plateau, and open, deep water circulation between India and Antarctica was blocked by Sri Lanka. The Falkland Plateau cleared the southern tip of Africa 100 Ma, but circulation from the South Atlantic northward into the Central Atlantic probably did not begin until Santonian time. Slow spreading between Australia and Antarctica, and a complicated spreading regime between various New Zealand plates, may have opened a seaway as early as 80 Ma. However, major circulation was probably delayed until as late as 40 Ma, when Tasmania and the South Tasman Rise finally cleared north Victoria Land of East Antarctica. The final barrier to circumpolar circulation was in the region of southern South America and the northern Antarctic Peninsula. There, various continental fragments may have partially blocked Drake Passage until the Miocene. General cooling of the world's oceans accompanied early Tertiary opening between Australia and Antarctica and the later opening of Drake Passage.
format Book Part
author Lawver, LA
Gahagan, LM
Coffin, MF
author_facet Lawver, LA
Gahagan, LM
Coffin, MF
author_sort Lawver, LA
title The Development of Paleoseaways around Antarctica
title_short The Development of Paleoseaways around Antarctica
title_full The Development of Paleoseaways around Antarctica
title_fullStr The Development of Paleoseaways around Antarctica
title_full_unstemmed The Development of Paleoseaways around Antarctica
title_sort development of paleoseaways around antarctica
publisher American Geophysical Union
publishDate 1992
url https://doi.org/10.1029/AR056p0007
http://ecite.utas.edu.au/73905
long_lat ENVELOPE(-50.000,-50.000,-51.000,-51.000)
ENVELOPE(12.000,12.000,-72.500,-72.500)
ENVELOPE(148.000,148.000,-47.500,-47.500)
ENVELOPE(-97.500,-97.500,-71.833,-71.833)
ENVELOPE(-99.000,-99.000,-72.167,-72.167)
geographic Antarctic
Antarctic Peninsula
Drake Passage
East Antarctica
Falkland Plateau
New Zealand
Pacific
Queen Maud Land
South Tasman Rise
The Antarctic
Thurston
Thurston Island
Victoria Land
Weddell
Weddell Sea
geographic_facet Antarctic
Antarctic Peninsula
Drake Passage
East Antarctica
Falkland Plateau
New Zealand
Pacific
Queen Maud Land
South Tasman Rise
The Antarctic
Thurston
Thurston Island
Victoria Land
Weddell
Weddell Sea
genre Antarc*
Antarctic
Antarctic Peninsula
Antarctica
Drake Passage
East Antarctica
Queen Maud Land
Thurston Island
Victoria Land
Weddell Sea
genre_facet Antarc*
Antarctic
Antarctic Peninsula
Antarctica
Drake Passage
East Antarctica
Queen Maud Land
Thurston Island
Victoria Land
Weddell Sea
op_relation http://ecite.utas.edu.au/73905/1/Lawver_et_al_AGU56_1992.pdf
http://dx.doi.org/10.1029/AR056p0007
Lawver, LA and Gahagan, LM and Coffin, MF, The Development of Paleoseaways around Antarctica, The Antarctic Paleoenvironment: A perspective on global change: Part One, American Geophysical Union, J P Kennett and D A Warkne (ed), Washington DC, pp. 7-30. ISBN 0-87590-823-3 (1992) [Research Book Chapter]
http://ecite.utas.edu.au/73905
op_doi https://doi.org/10.1029/AR056p0007
container_start_page 7
op_container_end_page 30
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