Frontiers in Earth Science (Mar 2024)

Protracted post-glacial hydrocarbon seepage in the Barents Sea revealed by U–Th dating of seep carbonates

  • Tobias Himmler,
  • Tobias Himmler,
  • Tobias Himmler,
  • Doris Wagner,
  • Diana Sahy,
  • Sunil Vadakkepuliyambatta,
  • Sunil Vadakkepuliyambatta,
  • Shyam Chand,
  • Shyam Chand,
  • Tõnu Martma,
  • Kalle Kirsimäe,
  • Rune Mattingsdal,
  • Giuliana Panieri,
  • Stefan Bünz,
  • Daniel J. Condon,
  • Jochen Knies,
  • Jochen Knies,
  • Aivo Lepland,
  • Aivo Lepland,
  • Aivo Lepland

DOI
https://doi.org/10.3389/feart.2024.1355621
Journal volume & issue
Vol. 12

Abstract

Read online

The hydrocarbon seepage chronology during deglaciation across the formerly glaciated Barents Sea was established using uranium-thorium (U–Th) dating of seep carbonates. Seep carbonates were sampled with remotely operated vehicles (ROV) from the seafloor at three active hydrocarbon seeps (water depth 156–383 m), located in the north-west (Storfjordrenna), north-central (Storbanken High), and south-west (Loppa High) Barents Sea. Overall, the U–Th dates range from 13.5 to 1.2 thousand years (ka) before present, indicating episodic seep carbonate formation since the late Pleistocene throughout the Holocene. The new U–Th dates indicate protracted post-glacial gas seepage, congruent with previously published seep carbonate ages from the south-west Barents Sea. Gas hydrate dissociation and associated seep carbonate formation occurred at Storfjordrenna between ≈6 and 1.2 ka, and around 13.5 and 6 ka at Storbanken. Early and late Holocene seep carbonate ages from Loppa High support post-glacial seismic activity as potential seepage trigger mechanism.

Keywords