Multi-elemental chemostratigraphy of Triassic mudstones in eastern Svalbard: implications for source rock formation in front of the World’s largest delta plain
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https://hdl.handle.net/10037/25120Date
2022-02-03Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Wesenlund, Fredrik; Grundvåg, Sten-Andreas; Engelschiøn, Victoria Sjøholt; Thieβen, Olaf; Pedersen, Jon HalvardAbstract
The Triassic Boreal Ocean was a shallow epicontinental basin and the sink of the
World's largest delta plain known to date. Nutrient and freshwater supply from
this delta have been regarded as important causes for high productivity and water
mass stratification, forming Middle Triassic oil-prone source rocks. Recent studies
attribute upwelling and a productivity-induced oxygen minimum zone as important factors. A multi-elemental chemostratigraphic study of a Spathian–Carnian
mudstone succession exposed in eastern Svalbard was performed to investigate
their formation. This includes 89 samples from three localities, from which 34
elements were acquired using combustion and X-ray fluorescence analyses. The
goal is to provide a correlation framework and infer the role of productivity, redox
and water mass restriction on organic matter accumulation and source rock formation. These processes had major impact on the source potential. The Spathian
Vendomdalen Member suggests deposition during intermittent benthic euxinia
and low productivity, corresponding with a reported deep thermocline that obstructed upwelling. The lower Anisian lower–middle Muen Member shows negligible enrichment in redox-sensitive elements but in situ phosphate nodules,
consistent with developing upwelling and moderate productivity. The middle
Anisian upper Muen Member formed during high productivity and phosphogenesis and is linked with basin-wide upwelling. Productivity, phosphate and redox
proxies are all strongly enriched in the upper Anisian–Ladinian Blanknuten
Member. In the south-western Barents Sea, the pro-deltaic environment of the
emerging Triassic Boreal Ocean delta system had terminated these conditions.
The upper Ladinian upper Blanknuten Member formed within intermittent euxinic bottom waters due to the shallowing sea level. The Carnian Tschermakfjellet
Formation marks the dominance of the prograding delta system and the end of
Triassic oil-prone source rock formation in Svalbard.
Publisher
WileyCitation
Wesenlund, F., Grundvåg, S.-A., Engelschiøn, V.S., Thießen, O. & Pedersen, J.H. (2022) Multi-elemental chemostratigraphy of Triassic mudstones in eastern Svalbard: Implications for source rock formation in front of the World’s largest delta plain. The Depositional Record, 00, 1–36.Metadata
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