Scientific Reports (May 2024)

Discovery of the first hydrothermal field along the 500-km-long Knipovich Ridge offshore Svalbard (the Jøtul field)

  • Gerhard Bohrmann,
  • Katharina Streuff,
  • Miriam Römer,
  • Stig-Morten Knutsen,
  • Daniel Smrzka,
  • Jan Kleint,
  • Aaron Röhler,
  • Thomas Pape,
  • Nils Rune Sandstå,
  • Charlotte Kleint,
  • Christian Hansen,
  • Christian dos Santos Ferreira,
  • Maren Walter,
  • Gustavo Macedo de Paula Santos,
  • Wolfgang Bach

DOI
https://doi.org/10.1038/s41598-024-60802-3
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 12

Abstract

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Abstract Oceanic spreading centers north of Iceland are characterized by ultraslow spreading rates, and related hydrothermal activity has been detected in the water column and at the seafloor along nearly all ridge segments. An exception is the 500-km-long Knipovich Ridge, from where, until now, no hydrothermal vents were known. Here we report the investigation of the first hydrothermal vent field of the Knipovich Ridge, which was discovered in July 2022 during expedition MSM109. The newly discovered hydrothermal field, named Jøtul hydrothermal field, is associated with the eastern bounding fault of the rift valley rather than with an axial volcanic ridge. Guided by physico-chemical anomalies in the water column, ROV investigations on the seafloor showed a wide variety of fluid escape sites, inactive and active mounds with abundant hydrothermal precipitates, and chemosynthetic organisms. Fluids with temperatures between 8 and 316 °C as well as precipitates were sampled at four vent sites. High methane, carbon dioxide, and ammonium concentrations, as well as high 87Sr/86Sr isotope ratios of the vent fluids indicate strong interaction between magma and sediments from the Svalbard continental margin. Such interactions are important for carbon mobilization at the seafloor and the carbon cycle in the ocean.