A deep seismic transect from Hovgard Ridge to northwestern Svalbard across the continental-ocean transition: A sheared margin study

New seismic refraction data were collected across the western Svalbard continental margin off Kongsfjorden (Ny Ålesund) during the cruise leg ARK15/2 of RV Polarstern. The use of onshore and offshore seismic receivers and a dense air-gun shot pattern provide a detailed view of the velocity structure...

Full description

Bibliographic Details
Published in:Geophysical Journal International
Main Authors: Ritzmann, O., Jokat, W., Czuba, W., Guterch, A., Mjelde, R., Nishimura, Y.
Format: Text
Language:English
Published: Oxford University Press 2004
Subjects:
Seismology
Forlandsundet
Greenland
Knipovich Ridge
Molloy
Molloy Ridge
Ny-Ålesund
Spitsbergen Fracture Zone
Svalbard
Kongsfjord*
Kongsfjorden
Ny Ålesund
Spitsbergen
Online Access:http://gji.oxfordjournals.org/cgi/content/short/157/2/683
https://doi.org/10.1111/j.1365-246X.2004.02204.x
Description
Summary:New seismic refraction data were collected across the western Svalbard continental margin off Kongsfjorden (Ny Ålesund) during the cruise leg ARK15/2 of RV Polarstern. The use of onshore and offshore seismic receivers and a dense air-gun shot pattern provide a detailed view of the velocity structure of Svalbard's continental interior, the continent–ocean transition, and oceanic crust related to the northern Knipovich Ridge and the Molloy Ridge. The proposed Caledonian central and western terranes of Svalbard are not distinguishable on the basis of seismic velocity structure. Below a 7 to 8 km thick Palaeozoic sedimentary cover the crystalline crust reveals a three-layer structure with seismic velocities ranging between 6.1 and 6.9 km s−1. The geological suture between the terranes is imperceptible. The middle and upper crust below the Tertiary Forlandsundet graben shows low velocities. This can be related to faulting during the Early Palaeozoic movements between Svalbard and northern Greenland, followed by the continental break-up. Moreover, a sedimentary Palaeozoic core is may be buried below the Forlandsundet graben. The continent–ocean transition can be classified as an obliquely sheared (transform) continental margin. The Moho dips with an angle of 45° eastwards at the continent–ocean transition that exhibits higher seismic velocities of more than 7.2 km s−1on the continental side. The sheared margin evolution is linked to the Spitsbergen Transform Fault, today located north of the Molloy Ridge spreading segment. During a later evolutionary stage the Molloy Ridge passed the continental margin. The separating boundary between continental and oceanic crust off northwestern Svalbard is today part of the inactive Spitsbergen Fracture Zone. The high seismic velocities at the continent–ocean boundary can be interpreted as minor mantle-derived intrusions, probably induced by interaction of the passing spreading ridge during the sheared margin evolution. The oceanic crust generated at the Knipovich Ridge and the ...

Similar Items