Frontier science and exploration: the Atlantic-Arctic

Confidential until December 1, 2008A new kinematic model from the pre-breakup to present day has been developed for the Arctic-North Atlantic region. Using potential field data (magnetic and gravity), published seismic interpretation and geological records we have re-interpreted the continent ocean...

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Bibliographic Details
Main Authors: Redfield, T. F., Müller, R. D. (Univ. of Sydney, Australia), Alvey, A. (Univ. of Liverpool, UK), Kuznir, N., Ball, P. (STATOIL), Knies, J. (NGU), Smethurst, M. A. (NGU Geodynamics), Buiter, S., Steinberger, B., Gaina, C., Torsvik, T. H.
Format: Report
Language:English
Published: 2006
Subjects:
GEOFYSIKK
PLATETEKTONIKK
Arctic
Barents Sea
Atlantic Arctic
Atlantic-Arctic
North Atlantic
Novaya Zemlya
Online Access:https://hdl.handle.net/11250/2664880
Description
Summary:Confidential until December 1, 2008A new kinematic model from the pre-breakup to present day has been developed for the Arctic-North Atlantic region. Using potential field data (magnetic and gravity), published seismic interpretation and geological records we have re-interpreted the continent ocean boundaries and transition zones. Seafloor spreading has been quantitatively determined and new palaeo-age grids have been constructed for the oceanic area. Kinematic parameters have been used in the case of a triple junction to estimate the errors of continent ocean boundary location. For the Jurassic-Cretaceous evolution of the Arctic we have explored several scenarios of oceanic basin evolution and used the predicted present day age configuration for estimation of crustal thickness. A new plate tectonic model of the North Atlantic-Barents Sea area have been used for modelling the Late Triassic-Early Jurassic compression in the Novaya Zemlya and eastern Barents Sea basins. 52799

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