Counterclockwise rotation of the western Alps since the Oligocene: New insights from paleomagnetic data

A paleomagnetic study of Penninic units in the southern part of the Alpine arc has been carried out. More than 200 samples (23 sites) were collected in Briançonnais Ammonitico rosso limestones of the high Ubaye valley and the Ligurian Alps. A characteristic component of magnetization of reverse pola...

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Bibliographic Details
Published in:Tectonics (Washington, D.C.) D.C.), 2002-08, Vol.21 (4), p.14-1-14-15
Main Authors: Collombet, M., Thomas, J. C., Chauvin, A., Tricart, P., Bouillin, J. P., Gratier, J. P.
Format: Article
Language:English
Subjects:
alpine kinematics
Continental contractional orogenic belts
Continental tectonics—general
Geomagnetism and Paleomagnetism
paleomagnetism
Paleomagnetism applied to tectonics (regional, global)
Remagnetization
rotation
Tectonophysics
Western Alps
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Summary:A paleomagnetic study of Penninic units in the southern part of the Alpine arc has been carried out. More than 200 samples (23 sites) were collected in Briançonnais Ammonitico rosso limestones of the high Ubaye valley and the Ligurian Alps. A characteristic component of magnetization of reverse polarity was isolated on most of the sites. This component does not pass the fold test and is interpreted as a Tertiary overprint related to Alpine metamorphism. Mean directions in geographic coordinates are D = 121°, I = −52°, α95 = 11°, and D = 72°, I = −48°, α95 = 15° for the Ubaye and the Liguria localities, respectively, indicating large counterclockwise rotations about vertical axis of 68° and 117° relative to stable Europe. These rotations, in agreement with a previous study conducted in the Briançon area, together with other paleomagnetic data from the western Alps, show that the internal Alps suffered a large but nonhomogeneous counterclockwise rotation since the Oligocene. The rotations are in agreement with the combination of earlier separately proposed processes: the rotation of the Adriatic plate accounts for about 25° of rotation, remaining rotation and southward gradient would be related to left‐lateral shear accommodating the displacement between Adria and Europe at the southern border of the western Alps. Furthermore, the southward extrusion of the western Alps south of the Simplon fault zone may account for up to 10° of rotation. Rotations appear therefore as a major process accommodating deformation in the western Alps since the Oligocene.
ISSN:0278-7407
1944-9194
DOI:10.1029/2001TC901016