Methane sources feeding cold seeps on the shelf and upper continental slope off central Oregon, USA
Abstract
We report on a bathymetric mapping and remotely operated vehicle surveys along the 100-600 m region offshore Oregon from 43°50'N to 44°18'N. We interpret our results in light of available geophysical data, published geotectonic models, and analogous observations of fluid venting and carbonate deposition from 44°30'N to 45°00'N. The methane seepage is defined by juxtaposition of a young prism, where methane is generated by bacterial activity and its release is modulated by gas hydrate dynamics, against older sequences that serve as a source of thermogenic hydrocarbons that vent in the shelf. We hypothesize that collision of a buried ridge with the Siletz Terrane results in uplift of gas hydrate bearing sediments in the oncoming plate and that the resulting decrease in pressure leads to gas hydrate dissociation and methane exolution, which, in turn, may facilitate slope failure. Oxidation of the released methane results in precipitation of carbonates that are imaged as high backscatter along a 550 ± 60 m benthic corridor.
- Publication:
-
Geochemistry, Geophysics, Geosystems
- Pub Date:
- November 2009
- DOI:
- 10.1029/2009GC002518
- Bibcode:
- 2009GGG....1011003T
- Keywords:
-
- Marine Geology and Geophysics: Continental shelf and slope processes (4219);
- Marine Geology and Geophysics: Seafloor morphology;
- geology;
- and geophysics;
- Geochemistry: Sedimentary geochemistry;
- seep carbonates;
- Heceta Bank;
- gas hydrate;
- methane seeps;
- Cascadia margin