Storfjorden Trough Mouth Fan (Western Barents Sea): slope failures in polar continental margins; significance of stress changes and fluid migration induced by glacial cycles

The development of two Arctic Trough Mouth Fans (TMFs), the Storfjorden and Kveithola TMFs, is investigated by means of sub-bottom and seismic reflection profiles, multibeam bathymetry and sediment samples allowing their detailed stratigraphic architecture to be defined. We find that the TMFs mainly...

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Bibliographic Details
Main Author: Llopart Serra, Jaume
Other Authors: Urgeles Esclasans, Roger, Camerlenghi, A. (Angelo), Vilaplana, Joan Manuel, Universitat de Barcelona. Departament d'Estratigrafia, Paleontologia i Geociències Marines
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Universitat de Barcelona 2016
Subjects:
Estratigrafia
Estratigrafía
Stratigraphic geology
Hidrogeologia
Hidrogeología
Hydrogeology
Barentsz (Mar)
Barentsz Sea
Ciències Experimentals i Matemàtiques
55
Arctic
Barents Sea
Ice Sheet
Online Access:http://hdl.handle.net/10803/401559
Description
Summary:The development of two Arctic Trough Mouth Fans (TMFs), the Storfjorden and Kveithola TMFs, is investigated by means of sub-bottom and seismic reflection profiles, multibeam bathymetry and sediment samples allowing their detailed stratigraphic architecture to be defined. We find that the TMFs mainly consist of an alternation of rapidly deposited glacigenic debris flows during glacial maxima and a sequence of well-layered plumites and hemipelagic sediments, which were mainly deposited during the deglaciation phase of the adjacent glacial trough. We have identified eight units above regional reflector R1, which indicate that the ice sheet reached the shelf edge within the Storfjorden Trough on at least three occasions during the last ~200 ka. A shallow subsurface unit of glacigenic debris flows suggests that the ice sheet had a short re-advance over the northern and central part of Storfjorden after the Last Glacial Maximum. From stratigraphy, core and literature data, we estimate that ice sheets reached the shelf edge between 19.5 to 22.5 ka, 61 to 65 ka and 135 to 167 ka. Detailed seismic imaging allows us to refine the sedimentary model of Arctic TMFs. The main differences to previous models involve gully formation during not only the deglaciation phase, but also during interglacials by dense shelf water cascading, and a specific timing for the occurrence of slope failures (i.e., shortly after the deglaciation phase). High mean sedimentation rates during glacial maxima of up to 18 kg m-2 yr-1 likely allow excess pore pressure to develop in the water rich plumites and hemipelagic sediments deposited in the previous deglacial period, particularly where such plumites attain a significant thickness. Climate variations control sediment supply to the continental slope as well as glacial advances and retreats. This hypothesis has been investigated by using a combination of geophysical and geotechnical data. The results of compressibility and permeability testing are used together with margin stratigraphic models ...

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