Antarctic tectonics: Constraints from an ERS-1 satellite marine gravity field

A high-resolution gravity field of poorly charted and ice-covered ocean near West Antarctica, from the Ross Sea east to the Weddell Sea, has been derived with the use of satellite altimetry, including ERS-1 geodetic phase, wave-form data. This gravity field reveals regional tectonic fabric, such as...

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Bibliographic Details
Main Authors: McAdoo, D, Laxon, S
Format: Article in Journal/Newspaper
Language:unknown
Published: AMER ASSOC ADVANCEMENT SCIENCE 1997
Subjects:
PLATE MOTIONS
WEDDELL SEA
GEOSAT DATA
PACIFIC
OCEAN
GONDWANALAND
EVOLUTION
HISTORY
MODEL
FLOOR
Amundsen Sea
Antarctic
Campbell Plateau
New Zealand
Pacific
Ross Sea
Weddell
Weddell Sea
West Antarctica
Antarc*
Antarctica
Online Access:http://discovery.ucl.ac.uk/154908/
Description
Summary:A high-resolution gravity field of poorly charted and ice-covered ocean near West Antarctica, from the Ross Sea east to the Weddell Sea, has been derived with the use of satellite altimetry, including ERS-1 geodetic phase, wave-form data. This gravity field reveals regional tectonic fabric, such as gravity lineations, which are the expression of fracture zones left by early (65 to 83 million years ago) Pacific-Antarctic sea-floor spreading that separated the Campbell Plateau and New Zealand continent from West Antarctica. These lineations constrain plate motion history and confirm the hypothesis that Antarctica behaved as two distinct plates, separated from each other by an extensional Bellingshausen plate boundary active in the Amundsen Sea before about 61 million years ago.

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