First evidence of widespread active methane seepage in the Southern Ocean, off the sub-Antarctic island of South Georgia

• Published in: Earth and planetary science letters Vol. 403; pp. 166 - 177
• Main Authors: Römer, M., Torres, M., Kasten, S., Kuhn, G., Graham, A.G.C., Mau, S., Little, C.T.S., Linse, K., Pape, T., Geprägs, P., Fischer, D., Wintersteller, P., Marcon, Y., Rethemeyer, J., Bohrmann, G.
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.10.2014
• Subjects: Carbon; cold seeps; Fjords; gas bubble emissions; Methane; methane seepage; Microorganisms; Sea beds; Sedimentation; Seepage; South Georgia; Southern Ocean; PSW, South Atlantic, South Georgia; PS, Antarctic Ocean; methane seepage; cold seeps; gas bubble emissions; South Georgia
• ISSN: 0012-821X; 1385-013X
• DOI: 10.1016/j.epsl.2014.06.036

An extensive submarine cold-seep area was discovered on the northern shelf of South Georgia during R/V Polarstern cruise ANT-XXIX/4 in spring 2013. Hydroacoustic surveys documented the presence of 133 gas bubble emissions, which were restricted to glacially-formed fjords and troughs. Video-based sea floor observations confirmed the sea floor origin of the gas emissions and spatially related microbial mats. Effective methane transport from these emissions into the hydrosphere was proven by relative enrichments of dissolved methane in near-bottom waters. Stable carbon isotopic signatures pointed to a predominant microbial methane formation, presumably based on high organic matter sedimentation in this region. Although known from many continental margins in the world's oceans, this is the first report of an active area of methane seepage in the Southern Ocean. Our finding of substantial methane emission related to a trough and fjord system, a topographical setting that exists commonly in glacially-affected areas, opens up the possibility that methane seepage is a more widespread phenomenon in polar and sub-polar regions than previously thought. •An extensive active seepage area was discovered north of South Georgia.•High input of organic matter leads to high rates of formation and emission of methane.•Gas emissions were restricted to glacially-formed fjords and cross-shelf troughs.•Seepage might be more common in polar and sub-polar regions than previously thought.