Jan Inge Faleide scite author profile

The Norwegian Margin formed in response to early Cenozoic continental breakup and subsequent opening of the Norwegian-Greenland Sea. There is a welldefined margin segmentation and the various segments are characterized by distinct crustal properties, structural and magmatic styles, and post-opening history of vertical motions. The sedimentary basins at the conjugate continental margins off Norway and Greenland and in the western Barents Sea developed as a result of a series of post-Caledonian rift episodes until early Cenozoic time, when complete continental separation took place.

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Late Mesozoic-Cenozoic evolution of the south-western Barents Sea in a regional rift-shear tectonic setting

Faleide

Vågnes

Guðlaugsson

1993

Marine and Petroleum Geology

307

364

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NE Atlantic continental rifting and volcanic margin formation

et al. 2000

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Deep seismic data from the Hatton-Rockall region, the mid-Norway margin and the SW Barents Sea provide images of the crustal structure that make it possible to estimate the relative amounts of crustal thinning for the Late Jurassic-Cretaceous and Maastrichtian-Paleocene NE Atlantic rift episodes. In addition, plate reconstructions illustrate the relative movements between Eurasia and Greenland back to Mid-Jurassic time. The NE Atlantic rift system developed as a result of a series of rift episodes from the Caledonian orogeny to early Tertiary time. The Late Palaeozoic rifting is poorly constrained, particularly with respect to timing. However, rifted basin geometries, inferred to be of this age, are observed at depth in seismic data on the flanks of the younger rift structures. Intra-continental rifting in Late Jurassic-Cretaceous times caused c. 50–70 km of crustal extension and subsequent Cretaceous basin subsidence from the Rockall Trough-North Sea areas in the south, to the SW Barents Sea in the north. In late Early to early Late Cretaceous times, new rifting occurred in the Rockall Trough and Labrador Sea associated with the northward propagation of North Atlantic sea-floor spreading. When sea-floor spreading was approached in the Labrador Sea the Rockall rift apparently became extinct. The final NE Atlantic rift episode was initiated near the Campanian-Maastrichtian boundary, lasted until continental separation near the Paleocene-Eocene transition, and caused c. 140 km extension. The late syn-rift and the earliest sea-floor spreading periods were affected by widespread igneous activity across a c. 300 km wide zone along the rifted plate boundary. The deep seismic data provide lower-crustal structural geometries that represent boundary conditions for a better mapping and understanding of the extensional thinning of the crust. The crustal geometries question extension estimates previously made from basin subsidence analysis, and aid in the definition of bodies of magmatic underplating beneath the outer volcanic margins.

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Triassic seismic sequence stratigraphy and paleogeography of the western Barents Sea area

Glørstad-Clark

Faleide

Lundschien³

et al. 2010

Marine and Petroleum Geology

169

254

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Late Cenozoic evolution of the western Barents Sea-Svalbard continental margin

Faleide

Solheim

Fiedler

et al. 1996

Global and Planetary Change

231

232

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Opening of the Fram Strait gateway: A review of plate tectonic constraints

2008

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Late Palaeozoic structural development of the South-western Barents Sea

Guðlaugsson

Faleide

Johansen

et al. 1998

Marine and Petroleum Geology

203

216

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Basement structure and its influence on the structural configuration of the northern North Sea rift

et al. 2017

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The northern North Sea rift basin developed on a heterogeneous crust comprising structures inherited from the Caledonian orogeny and Devonian postorogenic extension. Integrating two‐dimensional regional seismic reflection data and information from basement wells, we investigate the prerift structural configuration in the northern North Sea rift. Three seismic facies have been defined below the base rift surface: (1) relatively low‐amplitude and low‐frequency reflections, interpreted as pre‐Caledonian metasediments, Caledonian nappes, and/or Devonian clastic sediments; (2) packages of high‐amplitude dipping reflections (>500 ms thick), interpreted as basement shear zones; and (3) medium‐amplitude and high‐frequency reflections interpreted as less sheared crystalline basement of Proterozoic and Paleozoic (Caledonian) origin. Some zones of Seismic Facies 2 can be linked to onshore Devonian shear zones, whereas others are restricted to the offshore rift area. Interpreted offshore shear zones dip S, ESE, and WNW in contrast to W to NW dipping shear zones onshore West Norway. Our results indicate that Devonian strain and ductile deformation was distributed throughout the Caledonian orogenic belt from central South Norway to the Shetland Platform. Most of the Devonian basins related to this extension are, however, removed by erosion during subsequent exhumation. Basement shear zones reactivated during the rifting and locally control the location and geometry of rift depocenters, e.g., in the Stord and East Shetland basins. Prerift structures with present‐day dips >15° were reactivated, although some of the basement shear zones are displaced by rift faults regardless of their orientation relative to rift extension direction.

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Jan Inge Faleide

Structure and evolution of the continental margin off Norway and the Barents Sea

Late Mesozoic-Cenozoic evolution of the south-western Barents Sea in a regional rift-shear tectonic setting

NE Atlantic continental rifting and volcanic margin formation

Triassic seismic sequence stratigraphy and paleogeography of the western Barents Sea area

Late Cenozoic evolution of the western Barents Sea-Svalbard continental margin

Opening of the Fram Strait gateway: A review of plate tectonic constraints

Late Palaeozoic structural development of the South-western Barents Sea

Basement structure and its influence on the structural configuration of the northern North Sea rift

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