Publication Date:
2019-09-24
Description:
Highlights
• The basement at the mid-Norwegian Møre Margin is dominantly felsic in composition.
• A lower crustal body is interpreted as a mixture of continental blocks and eclogite.
• The thickness of the outer lower crustal body is twice as thick on the East Greenland Margin.
• The thinning during this first phase of post-Caledonian extension was highest for proto Norway.
Abstract
The inner part of the volcanic, passive Møre Margin, mid-Norway, expresses an unusual abrupt thinning from high onshore topography with a thick crust to an offshore basin with thin crystalline crust. Previous P-wave modeling of wide-angle seismic data revealed the presence of a high-velocity (7.7–8.0 km/s) body in the lower crust in this transitional region. These velocities are too high to be readily interpreted as Early Cenozoic intrusions, a model often invoked to explain lower crustal high-velocity bodies in the region. We present a Vp/Vs model, derived from the modeling of wide-angle seismic data, acquired by use of Ocean Bottom Seismograph horizontal components. The modeling suggests dominantly felsic composition of the crust. An average Vp/Vs value for the lower crustal body is modeled at 1.77, which is compatible with a mixture of continental blocks and Caledonian eclogites. The results are compiled with earlier results into a transect extending from onshore Norway to onshore Greenland. Back-stripping of the transect to Early Cenozoic indicates asymmetric conjugate magmatism related to the continental break-up. Further back-stripping to the time when most of the Caledonian mountain range had collapsed indicates that the thinning during the first phase of extension was about 25% higher for proto Norway than proto Greenland.
Type:
Article
,
PeerReviewed
Format:
text
DOI:
10.1016/j.tecto.2015.11.002
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