High-resolution seismic stratigraphy, sedimentary processes and the origin of seabed cracks and pockmarks at Nyegga, mid-Norwegian margin

Densely spaced high-resolution TOPAS seismic profiles and EM1002 bathymetric data reveal the presence of numerous pockmarks, mound-like structures and elongated seabed cracks at Nyegga, offshore mid-Norway. The seabed cracks are located adjacent to the northern escarpment of the Storegga Slide, appe...

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Bibliographic Details
Published in:Marine geology 2011-06, Vol.284 (1), p.28-39
Main Authors: Reiche, Sönke, Hjelstuen, Berit Oline, Haflidason, Haflidi
Format: Article
Language:English
Subjects:
Back propagation
Computational fluid dynamics
Cracks
debris flow
Fluid flow
Fluids
Marine
Norwegian margin
pockmarks
rapid sedimentation
Sea beds
seabed cracks
Seismic engineering
Seismic phenomena
Storegga Slide
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Summary:Densely spaced high-resolution TOPAS seismic profiles and EM1002 bathymetric data reveal the presence of numerous pockmarks, mound-like structures and elongated seabed cracks at Nyegga, offshore mid-Norway. The seabed cracks are located adjacent to the northern escarpment of the Storegga Slide, appearing as graben-like structures in the TOPAS data. Unlike the cracks, pockmarks and mound-structures are largely associated with vertical zones of acoustic blanking at depth, interpreted as pathways for vertically migrating gaseous fluids. Based on the TOPAS data, a new seismostratigraphic framework has been established and correlated to previously published age models of IMAGES cores MD99-2291 and MD99-2289. Seismic facies interpretation suggests repeated and rapid deposition of up to 40 m thick glacigenic wedges in the eastern part of the study area around 18.2 14C ka BP (21.8 cal. ka), 17.5 14C ka BP (20.8 cal. ka) and 16.9 14C ka BP (20 cal. ka). Towards the west, glacimarine deposition has prevailed, characterized by progressively increasing sedimentation rates with peak values of 30 m/ka during the period from 15.0 14C ka BP (18.2 cal. ka) to 15.8 14C ka BP (19 cal. ka). As the distribution of the Nyegga pockmarks closely coincides with the main Late Weichselian sediment depocenters, we suggest a relation between rapid and repeated sedimentation and periodic overpressure generation at depth, ultimately leading to fluid expulsion at the seabed and the formation of the Nyegga pockmark field. In contrast, seabed cracks at Nyegga appear to have formed due to local extension which we relate to horizontal stress reduction as a consequence of the Storegga Slide event. Potentially, this event has been accompanied by renewed vertical fluid migration and the most recent stage of pockmark development. ► High-resolution seismic and bathymetric investigation at Nyegga, mid-Norway. ► Repeated shelf-edge glaciations during the Late Weichselian glacial period. ► The seabed at Nyegga is perforated by 230 pockmarks and more than 25 seabed cracks. ► Pockmarks formed in response to ice sheet advances and rapid sediment loading. ► Seabed cracks formed at 8.1 cal. ka due to sediment removal by the Storegga Slide.
ISSN:0025-3227
1872-6151
DOI:10.1016/j.margeo.2011.03.006