Sediment deformation atop the Lomonosov Ridge, central Arctic Ocean: Evidence for gas-charged fluid migration?

We have used a hovercraft platform drifting with the sea ice to acquire the first digitally recorded seismic reflection data transects across the Canada/Greenland (89°N-85°N) section of the Lomonosov Ridge, central Arctic Ocean. The flat-lying, laterally uniform Cenozoic sediment package on top of the ridge at 87°N, 60° W shows at least four sites with local seismic amplitude anomalies. The common feature is a column (<600 m wide) of partly discontinuous or chaotic bright reflection events at the center of a <1.5 km wide dome (amplitude <25 m) terminating at the seabed in a 8–12 m deep depression. The amplitude anomalies are interpreted as gas-charged fluid escape pipes marked by a pockmark at the seabed. Gas and fluids introduced from below have mobilized the overlying high porosity, low density Eocene bio-siliceous ooze causing the doming. The gas and fluids appear to originate from the top of rotated fault blocks and sub-basalt sediments of Mesozoic or older age deposited when the Lomonosov Ridge was part of the pre-Late Cretaceous continental margin north of Franz Josef Land. • Sediment deformation associated with seismic amplitude anomalies discovered in the central Arctic Ocean. • Amplitude anomalies represent gas-charged fluid migration. • Deformation is induced by mobilization of sediments. • Gas and fluids emanated from deep sources within Mesozoic or older rocks. • First evidence of hydrocarbon source rocks on the Mesozoic polar margin of Europe.