Tectonic History and New Isochron Chart of the South Pacific (Paleoceanographic Mapping Project Progress Report No. 43-0888)

We have developed an internally consistent isochron chart and a tectonic history of the South Pacific using a combination of new satellite altimeter data and shipboard magnetic and bathymetric data. Highly accurate, vertical deflection profiles (1-2 µrad), derived from 22 repeat cycles of Geosat alt...

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Main Authors:	Mayes, Catherine L., Sandwell, David T., Lawver, Lawrence A.
Format:	Report
Language:	English
Published:	Institute for Geophysics 1988
Subjects:	plate tectonics plate reconstruction South Pacific Ocean satellite altimetry data magnetic anomaly Antarctic Byrd Campbell Plateau Galapagos Marie Byrd Land New Zealand Pacific The Antarctic Antarc*
Online Access:	http://hdl.handle.net/2152/67684 https://doi.org/10.15781/T2X34N978

id	ftunivtexas:oai:repositories.lib.utexas.edu:2152/67684
record_format	openpolar
spelling	ftunivtexas:oai:repositories.lib.utexas.edu:2152/67684 2023-05-15T13:52:19+02:00 Tectonic History and New Isochron Chart of the South Pacific (Paleoceanographic Mapping Project Progress Report No. 43-0888) Mayes, Catherine L. Sandwell, David T. Lawver, Lawrence A. 1988 application/pdf http://hdl.handle.net/2152/67684 https://doi.org/10.15781/T2X34N978 Eng eng Institute for Geophysics University of Texas Institute for Geophysics Technical Reports doi:10.15781/T2X34N978 Mayes, Catherine L., Sandwell, David T. and Lawver, Lawrence A. "Tectonic History and New Isochron Chart of the South Pacific (Paleoceanographic Mapping Project Progress Report No. 43-0888)." University of Texas Institute for Geophysics Technical Report Number 95 (August 1988), 75p. http://hdl.handle.net/2152/67684 Open plate tectonics plate reconstruction South Pacific Ocean satellite altimetry data magnetic anomaly Report 1988 ftunivtexas https://doi.org/10.15781/T2X34N978 2020-12-23T22:13:28Z We have developed an internally consistent isochron chart and a tectonic history of the South Pacific using a combination of new satellite altimeter data and shipboard magnetic and bathymetric data. Highly accurate, vertical deflection profiles (1-2 µrad), derived from 22 repeat cycles of Geosat altimetry, reveal subtle lineations in the gravity field associated with the South Pacific fracture zones. These fracture zone lineations are correlated with sparse shipboard bathymetric identifications of fracture zones and thus can be used to determine paleo-spreading directions in uncharted areas. The high density of Geosat altimeter profiles reveals previously unknown details in paleo-spreading directions on all of the major plates. Magnetic anomaly identifications and magnetic lineation interpretations from published sources were combined with these fracture zone lineations to produce a tectonic fabric map. The tectonic fabric was then used to derive new plate reconstructions for twelve selected times in the Late Cretaceous and Cenozoic. This is the first time that the tectonic history of the entire South Pacific has been studied as a whole. From our reconstructions, we estimated the former location of the spreading centers in order to derive a new set of isochrons (interpreted lines of equal age on the ocean floor). We believe that the use of new Geosat altimeter data in combination with a multi-plate reconstruction has led to a major improvement in our understanding of South Pacific tectonics. There are three times of important changes in the tectonic history of the South Pacific. Just prior to Chron 34 (84.0 Ma) spreading initiated between Marie Byrd Land and the New Zealand block (the Campbell Plateau and the Chatham Rise). Spreading in the southwest Pacific was occurring along two different spreading centers between Chron 34 (84.0 Ma) and Chron 25 (58.9 Ma): the Pacific-Antarctic Spreading Center to the west and the Pacific-Bellingshausen Spreading Center· to the east at around the time of Chron 21 (49.4 Ma), the eastern and western spreading centers began spreading about a common pole of rotation. In addition, the Pacific-Antarctic Spreading Center broke through old crust to the north, transferring a piece of crust created at the Pacific-Aluk spreading center to the Antarctic plate. The next major change in the South Pacific occurred between Chron 7 (25.8 Ma) and Chron 5 (10.6 Ma) when spreading initiated at the Galapagos Spreading Center and the East Pacific Rise was reoriented from spreading in a northwesterly direction to spreading in a northeasterly direction. UT Institute for Geophysics Paleoceanographic Mapping Project (POMP) Institute for Geophysics Report Antarc* Antarctic Marie Byrd Land The University of Texas at Austin: Texas ScholarWorks Antarctic Byrd Campbell Plateau ENVELOPE(171.000,171.000,-50.667,-50.667) Galapagos Marie Byrd Land ENVELOPE(-130.000,-130.000,-78.000,-78.000) New Zealand Pacific The Antarctic
institution	Open Polar
collection	The University of Texas at Austin: Texas ScholarWorks
op_collection_id	ftunivtexas
language	English
topic	plate tectonics plate reconstruction South Pacific Ocean satellite altimetry data magnetic anomaly
spellingShingle	plate tectonics plate reconstruction South Pacific Ocean satellite altimetry data magnetic anomaly Mayes, Catherine L. Sandwell, David T. Lawver, Lawrence A. Tectonic History and New Isochron Chart of the South Pacific (Paleoceanographic Mapping Project Progress Report No. 43-0888)
topic_facet	plate tectonics plate reconstruction South Pacific Ocean satellite altimetry data magnetic anomaly
description	We have developed an internally consistent isochron chart and a tectonic history of the South Pacific using a combination of new satellite altimeter data and shipboard magnetic and bathymetric data. Highly accurate, vertical deflection profiles (1-2 µrad), derived from 22 repeat cycles of Geosat altimetry, reveal subtle lineations in the gravity field associated with the South Pacific fracture zones. These fracture zone lineations are correlated with sparse shipboard bathymetric identifications of fracture zones and thus can be used to determine paleo-spreading directions in uncharted areas. The high density of Geosat altimeter profiles reveals previously unknown details in paleo-spreading directions on all of the major plates. Magnetic anomaly identifications and magnetic lineation interpretations from published sources were combined with these fracture zone lineations to produce a tectonic fabric map. The tectonic fabric was then used to derive new plate reconstructions for twelve selected times in the Late Cretaceous and Cenozoic. This is the first time that the tectonic history of the entire South Pacific has been studied as a whole. From our reconstructions, we estimated the former location of the spreading centers in order to derive a new set of isochrons (interpreted lines of equal age on the ocean floor). We believe that the use of new Geosat altimeter data in combination with a multi-plate reconstruction has led to a major improvement in our understanding of South Pacific tectonics. There are three times of important changes in the tectonic history of the South Pacific. Just prior to Chron 34 (84.0 Ma) spreading initiated between Marie Byrd Land and the New Zealand block (the Campbell Plateau and the Chatham Rise). Spreading in the southwest Pacific was occurring along two different spreading centers between Chron 34 (84.0 Ma) and Chron 25 (58.9 Ma): the Pacific-Antarctic Spreading Center to the west and the Pacific-Bellingshausen Spreading Center· to the east at around the time of Chron 21 (49.4 Ma), the eastern and western spreading centers began spreading about a common pole of rotation. In addition, the Pacific-Antarctic Spreading Center broke through old crust to the north, transferring a piece of crust created at the Pacific-Aluk spreading center to the Antarctic plate. The next major change in the South Pacific occurred between Chron 7 (25.8 Ma) and Chron 5 (10.6 Ma) when spreading initiated at the Galapagos Spreading Center and the East Pacific Rise was reoriented from spreading in a northwesterly direction to spreading in a northeasterly direction. UT Institute for Geophysics Paleoceanographic Mapping Project (POMP) Institute for Geophysics
format	Report
author	Mayes, Catherine L. Sandwell, David T. Lawver, Lawrence A.
author_facet	Mayes, Catherine L. Sandwell, David T. Lawver, Lawrence A.
author_sort	Mayes, Catherine L.
title	Tectonic History and New Isochron Chart of the South Pacific (Paleoceanographic Mapping Project Progress Report No. 43-0888)
title_short	Tectonic History and New Isochron Chart of the South Pacific (Paleoceanographic Mapping Project Progress Report No. 43-0888)
title_full	Tectonic History and New Isochron Chart of the South Pacific (Paleoceanographic Mapping Project Progress Report No. 43-0888)
title_fullStr	Tectonic History and New Isochron Chart of the South Pacific (Paleoceanographic Mapping Project Progress Report No. 43-0888)
title_full_unstemmed	Tectonic History and New Isochron Chart of the South Pacific (Paleoceanographic Mapping Project Progress Report No. 43-0888)
title_sort	tectonic history and new isochron chart of the south pacific (paleoceanographic mapping project progress report no. 43-0888)
publisher	Institute for Geophysics
publishDate	1988
url	http://hdl.handle.net/2152/67684 https://doi.org/10.15781/T2X34N978
long_lat	ENVELOPE(171.000,171.000,-50.667,-50.667) ENVELOPE(-130.000,-130.000,-78.000,-78.000)
geographic	Antarctic Byrd Campbell Plateau Galapagos Marie Byrd Land New Zealand Pacific The Antarctic
geographic_facet	Antarctic Byrd Campbell Plateau Galapagos Marie Byrd Land New Zealand Pacific The Antarctic
genre	Antarc* Antarctic Marie Byrd Land
genre_facet	Antarc* Antarctic Marie Byrd Land
op_relation	University of Texas Institute for Geophysics Technical Reports doi:10.15781/T2X34N978 Mayes, Catherine L., Sandwell, David T. and Lawver, Lawrence A. "Tectonic History and New Isochron Chart of the South Pacific (Paleoceanographic Mapping Project Progress Report No. 43-0888)." University of Texas Institute for Geophysics Technical Report Number 95 (August 1988), 75p. http://hdl.handle.net/2152/67684
op_rights	Open
op_doi	https://doi.org/10.15781/T2X34N978
_version_	1766256601103073280

Tectonic History and New Isochron Chart of the South Pacific (Paleoceanographic Mapping Project Progress Report No. 43-0888)

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