An Arctic natural oil seep investigated from space to the seafloor

Due to climate change, decreasing ice cover and increasing industrial activities, Arctic marine ecosystems are expected to face higher levels of anthropogenic stress. To sustain healthy and productive ocean ecosystems, it is imperative to build baseline data to assess future changes. Herein, a natur...

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Bibliographic Details
Published in:Science of The Total Environment
Main Authors: Panieri, Giuliana, Argentino, Claudio, Ramalho, Sofia P., Vulcano, Francesca, Savini, Alessandra, Fallati, Luca, Brekke, Trond, Galimberti, Giulia, Riva, Federica, Balsa, João, Eilertsen, Mari Heggernes, Stokke, Runar, Steen, Ida Helene, Sahy, Diana, Kalenitchenko, Dimitri Stanislas Desire, Bünz, Stefan, Mattingsdal, Rune
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2023
Subjects:
Arctic
Prins Karls Forland
Svalbard
Climate change
Ice Sheet
Online Access:https://hdl.handle.net/11250/3111714
https://doi.org/10.1016/j.scitotenv.2023.167788
Description
Summary:Due to climate change, decreasing ice cover and increasing industrial activities, Arctic marine ecosystems are expected to face higher levels of anthropogenic stress. To sustain healthy and productive ocean ecosystems, it is imperative to build baseline data to assess future changes. Herein, a natural oil seep site offshore western Svalbard (Prins Karls Forland, PKF, 80–100 m water depth), discovered using satellite radar images, was investigated using an extensive multiscale and multisource geospatial dataset collected by satellite, aerial, floating, and underwater platforms. The PKF seep covers roughly a seafloor area of 30,000 m2 and discharges oil from Tertiary or younger source rocks. Biomarker analyses confirm that the oil in the slicks on the sea surface and from the seep on the seafloor have the same origin. Uranium/Thorium dating of authigenic carbonate crusts indicated that the seep had emanated since the Late Pleistocene when ice sheet melting unlocked the hydrocarbons trapped beneath the ice. The faunal communities at the PKF seep are a mix of typical high latitude fauna and taxa adapted to reducing environments. Remarkably, the inhospitable oil-impregnated sediments were also colonized by abundant infaunal organisms. Altogether, in situ observations obtained at the site provide essential insights into the characteristics of high–latitude oil seeps and can be used as a natural laboratory for understanding the potential impacts of human oil discharge into the ocean publishedVersion

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