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Geomorphology of
Buried Subglacial Valleys and Horizons Interpreted
from 3-D Seismic Data, German
Lutz, Rudiger, Gerhard Best, Lutz Reinhardt, Christoph Gaedicke, Federal Institute for Geosciences and Natural Resources (BGR), Germany, Hannover, Germany
A 3D seismic survey acquired by a German oil and gas consortium
was investigated down to a depth of 2 s TWT. Target of the study was the
analysis of the structures of buried pre-Weichselian subglacial valleys and horizons featuring glacigenic morphology. The most prominent structures in the
shallow subsurface are the widespread ramified subglacial
valleys of likely Elsterian (~400 kyr BP) and Saalian (~190 kyr BP) age. They can be up to 400 m deep and generally
have a complex infill. So far, their occurrence is incompletely known for the
German EEZ. In the 3D seismic data these valleys can be studied in greater
detail and their morphology can be determined. Different generation phases and
varying orientations of these valleys are visible.
More subtle structures are investigated in different 
time
slices
like widespread iceberg keel scouring and ice sheet scours. Observed circular
structures could be pingos and/or pockmarks produced
by permafrost and gas now situated at a depth of 800 ms. More
elongated shallow depressions (“wallows”) on bedding planes could have been
produced by ice masses, which stranded in shallow waters.
Also remnants of
the former morphology of the glacially formed landscapes seem to be preserved
represented by contrasting seismic facies of patchy,
rough moraines and more uniform planes. The planes are incised by up to 4
intersecting systems of gullies, channels, and valleys that are of supposed fluvial
and subglacial origin. Bright spots, gas pockets at
faults and gas chimneys are indicators for the presence of shallow gas.