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Published November 1, 2022 | public
Journal Article

Time constraints on hydrocarbon migration and caprock formation recorded by calcite spar in a Carboniferous-Permian carbonate-evaporite succession, Finnmark Platform, Barents Sea

Abstract

A late Carboniferous to early Permian carbonate and evaporite succession from the Finnmark Platform (southern Barents Sea) contains nodules of anhydrite partially to fully replaced by calcite spar and native sulfur genetically linked to hydrocarbon migration and/or oxidation, analogous to processes observed in salt diapir caprocks in the Gulf of Mexico. In situ U-Pb dating of this calcite spar therefore has the potential to directly date hydrocarbon migration and provide further insight into the geochemical and temperature conditions during this event when coupled with traditional stable and clumped isotope ratios (δ¹³C, δ¹⁸O, and Δ₄₇). Results indicate calcite formed ca. 50–15 Ma, postdating host-rock deposition by 250–285 m.y. Strongly negative δ¹³C values in the calcite spar (mean = −15‰) are consistent with a major contribution of carbon from hydrocarbons, and Δ₄₇ paleothermometry indicates a mean precipitation temperature of 46 ± 11 °C. These geochemical results are consistent with the local burial history and suggest protracted hydrocarbon migration and/or oxidation and caprock formation spanning ~35 m.y.

Additional Information

We thank Holar Sepp, Tobias Danner, Nami E. Kitchen, and John M. Eiler for assistance with analyses. Philip Staudigel, Jerry Dickens, and two anonymous reviewers are thanked for constructive feedback.

Additional details

Created:
August 22, 2023
Modified:
October 23, 2023