S5:Svalbard Composite Tectono-Sedimentary Element, Barents Sea

Paleogene succession; the Van Mijenfjorden Group. TSE 7: Paleogene – foreland basin. The up to 1.9 km thick Paleogene Van Mijenfjorden Group occurs in the CTB and consists of a Paleocene and an Eocene succession (Fig. a). The Paleocene succession consists of offshore shale (the Basilika Formation) a...

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Bibliographic Details
Main Authors: Snorre Olaussen, Sten-Andreas Grundvåg, Kim Senger, Ingrid Anell, Peter Betlem, Thomas Birchall, Alvar Braathen, Winfried Dallmann, Malte Jochmann, Erik P. Johannessen, Gareth Lord, Atle Mørk, Per T. Osmundsen, Aleksandra Smyrak-Sikora, Lars Stemmerik
Format: Other Non-Article Part of Journal/Newspaper
Language:unknown
Published: 2023
Subjects:
Geology
laterally extensive shelf
intercalated sandstone wedges
gradually passes upwards
experienced locally thickness
current coal production
5m pure coal
paralic lower part
frysjaodden formation )
van mijenfjorden group
svalbard composite tectono
paleocene succession consists
van mijenfjorden
important coal
paralic origin
eocene succession
battfjellet formation
basilika formation
aspelintoppen formation
tse 7
todalen member
spectacular seismic
spectacular motif
shallow marine
sedimentary element
scale outcrops
offshore shale
mine 7
longyear seam
hollendardalen formations
e .
deltaic sandstones
continental strata
bearing unit
basin fill
Adventdalen
Aspelintoppen
Barents Sea
Basilika
Battfjellet
Frysjaodden
Grumantbyen
Hollendardalen
Storvola
Svalbard
Svea
Todalen
Van Mijenfjorden
Grumantby*
Online Access:https://doi.org/10.6084/m9.figshare.21968709.v1
https://figshare.com/articles/journal_contribution/S5_Svalbard_Composite_Tectono-Sedimentary_Element_Barents_Sea/21968709
Description
Summary:Paleogene succession; the Van Mijenfjorden Group. TSE 7: Paleogene – foreland basin. The up to 1.9 km thick Paleogene Van Mijenfjorden Group occurs in the CTB and consists of a Paleocene and an Eocene succession (Fig. a). The Paleocene succession consists of offshore shale (the Basilika Formation) and intercalated sandstone wedges of shallow marine and paralic origin (i.e., the Firkanten, Grumantbyen and Hollendardalen formations; Figs a and b). The paralic lower part of the Firkanten Formation (i.e., the Todalen Member) represents the most important coal-bearing unit in Svalbard. The abandoned Svea Nord mine in Van Mijenfjorden (Fig. b) experienced locally thickness of more than 5m pure coal. The current coal production in Mine 7, Adventdalen, extracts the Longyear seam which normally is thinner than 2m (Fig. c). The Eocene basin fill consists of a several hundred metres thick basin floor shale unit (the Frysjaodden Formation), which gradually passes upwards into shallow marine to deltaic sandstones (the Battfjellet Formation; Fig. d) and continental strata (the Aspelintoppen Formation; Fig. e), reflecting overall regressive conditions. Spectacular seismic-scale outcrops, such as the renown Storvola mountain display clinoforms which constitutes a characteristic and spectacular motif of the basin fill with laterally extensive shelf to slope and basin floor facies belts (Fig. f).

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