Exhumed hydrocarbon traps on the North Atlantic margin: Stratigraphy, palaeontology, provenance and bitumen distribution, an integrated approach

Previous work has demonstrated the presence of a number of exhumed hydrocarbon traps in central East Greenland. Re‐evaluation of the stratigraphy alongside detailed investigation of the occurrence of bitumen within the Mols Bjerge and Laplace Bjerg exhumed hydrocarbon traps provides new perspectives...

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Bibliographic Details
Published in:Basin Research
Main Authors: Andrews, Steven D., Decou, Audrey, Braham, Bill, Kelly, Simon R. A., Robinson, Paula, Morton, Andrew C., Marshall, John E. A., Hyden, Fiona
Format: Article in Journal/Newspaper
Language:English
Published: 2019
Subjects:
Greenland
Sund
Laplace
Wordie
Ørsted Dal
Mols Bjerge
Laplace Bjerg
Vega Sund
East Greenland
North Atlantic
Online Access:https://eprints.soton.ac.uk/437301/
https://eprints.soton.ac.uk/437301/1/Andrews_et_al_New_Perspectives_revised.doc
https://eprints.soton.ac.uk/437301/2/compiled_figures.pdf
Description
Summary:Previous work has demonstrated the presence of a number of exhumed hydrocarbon traps in central East Greenland. Re‐evaluation of the stratigraphy alongside detailed investigation of the occurrence of bitumen within the Mols Bjerge and Laplace Bjerg exhumed hydrocarbon traps provides new perspectives on these structures, as well as the petroleum geology of East Greenland and the wider North Atlantic. Sedimentological and stratigraphic studies, augmented with palynological and provenance investigations, have constrained the dating and correlation of the strata exposed in the Mols Bjerge and Laplace Bjerg. Petrographic analysis, alongside analysis of the bitumen identified, has highlighted a much wider distribution of hydrocarbon than previously recognized. It was previously considered that Jurassic strata formed the main reservoir interval within the Mols Bjerge and Laplace Bjerg exhumed hydrocarbon traps. It is shown here that the reservoir intervals in the Laplace Bjerg trap lie within the Late Triassic Ørsted Dal and Vega Sund members, which contain up to 18% pyrobitumen and were previously misidentified as Jurassic. The Jurassic Bristol Elv Formation is the most extensively bitumen stained unit in the Mols Bjerge trap. However, occurrences of pyrobitumen (up to 3%) are recorded throughout the Triassic stratigraphy, including the Early Triassic Wordie Creek Formation. Faults, thick calcrete development and regionally continuous mudstone units play an important role in compartmentalizing the palaeohydrocarbon accumulations.

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