2015
DOI: 10.1002/2014tc003778
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Mega‐scale Moho relief and the structure of the lithosphere on the eastern flank of the Viking Graben, offshore southwestern Norway

Abstract: The International Lithosphere Project deep reflection seismic survey in the Norwegian sector of the North Sea has been reprocessed, particularly focusing on the deep crust, the reflection Moho, and the upper mantle. The data display shifting reflection patterns of the crust and the upper mantle parallel to the eastern margin of the Viking Graben. In the upper crust, which is mainly seismically transparent by the processing techniques utilized here, large-scale structural features like detachment shear zones an… Show more

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Cited by 17 publications
(14 citation statements)
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References 97 publications
(172 reference statements)
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“…In the northern North Sea, the southern extension of the otherwise N‐S striking Øygarden Fault rotates to a NE‐SW orientation and locally aligns with the NE‐SW striking Hardangerfjord Shear Zone, suggesting a local NE‐SW oriented stress field associated with the shear zone (Figures and ). The Hardangerfjord shear zone represents a major structure across the northern North Sea rift and is associated with a Moho offset at depth (Gabrielsen et al, ; Maystrenko et al, ). Similarly, faults defining the western margin of the Stord Basin follow the underlying Utsira Shear Zone in plan‐view, rotating from N‐S in the south to NE‐SW further north.…”
Section: Discussionmentioning
confidence: 99%
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“…In the northern North Sea, the southern extension of the otherwise N‐S striking Øygarden Fault rotates to a NE‐SW orientation and locally aligns with the NE‐SW striking Hardangerfjord Shear Zone, suggesting a local NE‐SW oriented stress field associated with the shear zone (Figures and ). The Hardangerfjord shear zone represents a major structure across the northern North Sea rift and is associated with a Moho offset at depth (Gabrielsen et al, ; Maystrenko et al, ). Similarly, faults defining the western margin of the Stord Basin follow the underlying Utsira Shear Zone in plan‐view, rotating from N‐S in the south to NE‐SW further north.…”
Section: Discussionmentioning
confidence: 99%
“…This structure has an enhanced influence throughout the multiphase evolution of the rift compared to other interpreted Devonian shear zones. One possibility is that the Lomre Shear Zone extends to greater (i.e., midcrustal) depths, or that it reactivates a Caledonian or earlier structure, both of which have been proposed for the Hardangerfjord Shear Zone further south, which also exerts a different influence over rift physiography, being associated with a Moho offset at depth and controlling the location and geometry of the rift‐bounding faults in the Ling Depression (Fossen et al, ; Fossen & Hurich, ; Gabrielsen et al, ; Maystrenko et al, ). The Lomre Shear Zone has been proposed to represent the southern extension of the Nordfjord‐Sogn Detachment by Færseth et al (), although it does not appear to correlate with the structure onshore (Figure ).…”
Section: Discussionmentioning
confidence: 99%
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“…cit.). It continues into the North Sea where it reaches lower crustal levels (Gabrielsen et al, 2015). Based on the geometry and kinematics of faults that are crosscut by Permian and Triassic dikes in the Sunnhordland region, a pre-dike extension phase oriented NW-SE has been constrained by Valle et al (2002).…”
Section: Late-caledonian To Post-caledonian Collapsementioning
confidence: 99%
“…In late Palaeozoic and early Triassic times, tensional forces resulted in the supercontinent break up and opening of the North Atlantic during the Tertiary, creating the Viking Graben. The N-S striking faults in the Horda platform area became reactivated during the Jurassic-Cretaceous, leading to further development of the Viking Graben (Nøttvedt et al 1995;Gabrielsen et al 2015). The Utsira High is an intrabasinal structural high between the Viking Graben and the Stord Basin ( Fig.…”
Section: Geological Settingmentioning
confidence: 99%