1. Contrasting Neogene–Quaternary continental margin evolution offshore mid-north Norway: Implications for source-to-sink systems.
- Author
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Bjordal-Olsen, Stine, Rydningen, Tom Arne, Laberg, Jan Sverre, Lasabuda, Amando P.E., and Knutsen, Stig-Morten
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CONTINENTAL margins , *CONTINENTAL shelf , *GLACIAL drift , *ICE sheets , *SEISMIC prospecting , *TOPOGRAPHY , *OCEAN currents , *FLUVIAL geomorphology - Abstract
The Neogene–Quaternary development of the ∼700 km long mid-Norwegian and Lofoten–Vesterålen continental margin is reconstructed using a dense grid of 2D seismic data and exploration wellbores. Overall, widespread ocean current-controlled contourite drifts built up along the whole margin segment from the mid-Miocene onwards (c. 11 Ma, Kai Formation). The onset (c. 8.8 Ma) of a large inner shelf progradation (Molo Formation) was, however, restricted to the southern part of the study area, the inner mid-Norwegian shelf. In the Quaternary (c. 2.7 Ma), grounded ice sheets repeatedly brought large sediment volumes (Naust Formation) to the shelf beyond the Molo Formation. A similar build-out is less pronounced further north, where contourite drift growth instead continued and resulted in build-up of the Lofoten and Vesterålen drifts. In contrast, the drifts of the southern part of the study area occur for the most part stratigraphically below, interbedded with and distal to the progradational Molo and Naust deposits. The study area exemplifies pronounced variability in Neogene–Quaternary continental margin growth. The wide and gently dipping mid-Norwegian margin facilitated coastal and shelf progradation related to fluvial and glacial processes, while the narrow and steep Lofoten–Vesterålen margin received little input from these sources although exposed to the same paleoclimate. Instead, erosion of canyons promoted downslope reworking across the slope and into the deep basins. This low sediment input is interpreted to be controlled by the alpine relief in the north resulting in a small source area and thus low fluvial and glacial sediment input. To the south, hinterland relief allowed for a much larger fluvial and later, glacial source area. Both margin segments were also influenced by contour currents throughout the studied period. We emphasize their importance for understanding the role of erosion and deposition in source-to-sink systems, and thus the need for these processes to be integrated within source-to-sink models. • Regional seismic study of along- and downslope processes on the Norwegian margin. • New contourites are defined that evolved from ∼11 Ma due to inflowing Atlantic Water. • Miocene fluvial (∼8.8 Ma) and Quaternary glacial sources formed progradational wedges. • Hinterland/basin topography, sediment supply and climate, controlled margin growth. • Erosion-sedimentation from ocean currents influence source-to-sink systems. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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