Middle to Late Devonian–Carboniferous collapse basins on the Finnmark Platform and in the southwesternmost Nordkapp basin, SW Barents Sea

Jean-Baptiste P Koehl,Jan Inge Faleide,Tormod Henningsen,Steffen G Bergh

doi:10.5194/se-9-341-2018

Jean-Baptiste P Koehl, Jan Inge Faleide + Show 2 more

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https://doi.org/10.5194/se-9-341-2018

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Abstract

Abstract. The SW Barents Sea margin experienced a pulse of extensional deformation in the Middle–Late Devonian through the Carboniferous, after the Caledonian Orogeny terminated. These events marked the initial stages of formation of major offshore basins such as the Hammerfest and Nordkapp basins. We mapped and analyzed three major fault complexes, (i) the Måsøy Fault Complex, (ii) the Rolvsøya fault, and (iii) the Troms–Finnmark Fault Complex. We discuss the formation of the Måsøy Fault Complex as a possible extensional splay of an overall NE–SW-trending, NW-dipping, basement-seated Caledonian shear zone, the Sørøya–Ingøya shear zone, which was partly inverted during the collapse of the Caledonides and accommodated top–NW normal displacement in Middle to Late Devonian–Carboniferous times. The Troms–Finnmark Fault Complex displays a zigzag-shaped pattern of NNE–SSW- and ENE–WSW-trending extensional faults before it terminates to the north as a WNW–ESE-trending, NE-dipping normal fault that separates the southwesternmost Nordkapp basin in the northeast from the western Finnmark Platform and the Gjesvær Low in the southwest. The WNW–ESE-trending, margin-oblique segment of the Troms–Finnmark Fault Complex is considered to represent the offshore prolongation of a major Neoproterozoic fault complex, the Trollfjorden–Komagelva Fault Zone, which is made of WNW–ESE-trending, subvertical faults that crop out on the island of Magerøya in NW Finnmark. Our results suggest that the Trollfjorden–Komagelva Fault Zone dies out to the northwest before reaching the western Finnmark Platform. We propose an alternative model for the origin of the WNW–ESE-trending segment of the Troms–Finnmark Fault Complex as a possible hard-linked, accommodation cross fault that developed along the Sørøy–Ingøya shear zone. This brittle fault decoupled the western Finnmark Platform from the southwesternmost Nordkapp basin and merged with the Måsøy Fault Complex in Carboniferous times. Seismic data over the Gjesvær Low and southwesternmost Nordkapp basin show that the low-gravity anomaly observed in these areas may result from the presence of Middle to Upper Devonian sedimentary units resembling those in Middle Devonian, spoon-shaped, late- to post-orogenic collapse basins in western and mid-Norway. We propose a model for the formation of the southwesternmost Nordkapp basin and its counterpart Devonian basin in the Gjesvær Low by exhumation of narrow, ENE–WSW- to NE–SW-trending basement ridges along a bowed portion of the Sørøya-Ingøya shear zone in the Middle to Late Devonian–early Carboniferous. Exhumation may have involved part of a large-scale metamorphic core complex that potentially included the Lofoten Ridge, the West Troms Basement Complex and the Norsel High. Finally, we argue that the Sørøya–Ingøya shear zone truncated and decapitated the Trollfjorden–Komagelva Fault Zone during the Caledonian Orogeny and that the western continuation of the Trollfjorden–Komagelva Fault Zone was mostly eroded and potentially partly preserved in basement highs in the SW Barents Sea.

Highlights

The SW Barents Sea margin is located near the Iapetus suture zone that formed when Laurentia collided with Fennoscandia to produce the Caledonian Orogeny (Ramberg et al, 2008; Gernigon et al, 2014)
We demonstrate the presence of an overall NE–SW-trending, NW-dipping, basement-seated, low-angle shear zone on the Finnmark Platform, the Sørøya-Ingøya shear zone (SISZ; Fig. 1), and to discuss its role played in shaping the SW Barents Sea margin during late- to post-orogenic collapse of the Caledonides in late Paleozoic times and its influence on the formation and evolution of Devonian–Carboniferous collapse basins
We propose that the WNW–ESEtrending fault segment of the Troms– Finnmark Fault Complex (TFFC) acted as an accommodation cross fault, as defined in Sengör (1987), that transferred displacement between the NNE–SSW-trending segment of the TFFC and the main segment of the Måsøy Fault Complex (MFC), defining a step synthetic with the deepening direction of the spoon-shaped trough formed by the geometry of the SISZ (Fig. 7)

Summary

Introduction

The SW Barents Sea margin is located near the Iapetus suture zone that formed when Laurentia collided with Fennoscandia to produce the Caledonian Orogeny (Ramberg et al, 2008; Gernigon et al, 2014) This suture and possibly related deep-seated shear zones, which accommodated, for example, thrust nappe emplacement during the Caledonian Orogeny, are covered by late Paleozoic to Cenozoic sedimentary basins that formed during multiple episodes of extension. The rift margin along the SW Barents Sea, offshore western Troms and NW Finnmark (Fig. 1), consists of the Finnmark Platform and an adjacent, glacial-sediment-free strandflat and of deep offshore basins such as the Hammerfest and Nordkapp basins (Gabrielsen et al, 1990) These basins are bounded by major NE–SW-trending extensional faults such as the Troms– Finnmark Fault Complex (TFFC; Gabrielsen et al, 1990; Smelror et al, 2009; Indrevær et al, 2013), the Måsøy Fault Complex (MFC; Gabrielsen et al, 1990; Gudlaugsson et al, 1998), and potential basement-seated ductile detachments (Fig. 1). The study area includes a deep Paleozoic basin that is located southwest of the Nordkapp Basin and east of the Hammerfest Basin and which is bounded to the southwest by the WNW–ESE-trending segment of the TFFC and to the southeast by the MFC (Fig. 1)

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