Guy R. Cochrane scite author profile

Transects of the submersible Alvin across rock outcrops in the Oregon subduction zone have furnished information on the structural and stratigraphic framework of this accretionary complex. Communities of clams and tube worms, and authigenic carbonate mineral precipitates, are associated with venting sites of cool fluids located on a fault-bend anticline at a water depth of 2036 meters. The distribution of animals and carbonates suggests up-dip migration of fluids from both shallow and deep sources along permeable strata or fault zones within these clastic deposits. Methane is enriched in the water column over one vent site, and carbonate minerals and animal tissues are highly enriched in carbon-12. The animals use methane as an energy and food source in symbiosis with microorganisms. Oxidized methane is also the carbon source for the authigenic carbonates that cement the sediments of the accretionary complex. The animal communities and carbonates observed in the Oregon subduction zone occur in strata as old as 2.0 million years and provide criteria for identifying other localities where modern and ancient accreted deposits have vented methane, hydrocarbons, and other nutrient-bearing fluids.

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Landward vergence and oblique structural trends in the Oregon margin accretionary prism: Implications and effect on fluid flow

MacKay

Moore

Cochrane

et al. 1992

Earth and Planetary Science Letters

167

127

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Transect across the West Antarctic rift system in the Ross Sea, Antarctica

et al. 1999

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Velocity and inferred porosity model of the Oregon accretionary prism from multichannel seismic reflection data: Implications on sediment dewatering and overpressure

Cochrane¹,

Moore²,

MacKay³

et al. 1994

J. Geophys. Res.

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A two‐dimensional model of seismic velocity derived from multichannel seismic data collected off Oregon in 1989 shows that as sediments are carried from Cascadia Basin into the accretionary prism, there are measurable changes in velocity‐depth profiles. In the seaward most area of the basin, where no thrust faults are observed, there is a landward (and downward) increase of velocity in the sedimentary section. We attribute the velocity increase in the basin to a reduction of porosity resulting from consolidation and cementation, accompanied by diffusive flow of pore water driven by lateral tectonic as well as gravitational stress. Near the base of the slope there is an area of incipient thrusting (the protothrust zone) where protothrusts sole out into a protodécollement. Synthetic seismogram modeling of the reverse‐polarity reflection from the protodécollement shows a 100‐m‐thick layer with a slightly lower velocity relative to the sediments above it. Above the protodécollement, velocity continues to increase landward. We suggest that in this area the diffusive flow of pore water out of the sediment is augmented above the protodécollement by fault‐focused flow. Below the protodécollement a reversal in velocity may be due to an increase in porosity resulting from overpressuring of pore fluid trapped by reduction of the permeability of the sediment above the protodécollement. Farther landward, where thrusting has formed a fault‐bend fold, velocity values are lower in the accreted section of sediments relative to the velocity at a comparable subbottom depth in the protothrust zone. The decrease in velocity is a result of microfracturing of the highly consolidated sediments accompanying uplift and folding and reflects the increasing role of fracturing and faulting in the control of dewatering of the sediments.

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Use of acoustic classification of sidescan sonar data for mapping benthic habitat in the Northern Channel Islands, California

Cochrane¹,

Lafferty²

2002

Continental Shelf Research

105

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Guy R. Cochrane

Oregon Subduction Zone: Venting, Fauna, and Carbonates

Landward vergence and oblique structural trends in the Oregon margin accretionary prism: Implications and effect on fluid flow

Transect across the West Antarctic rift system in the Ross Sea, Antarctica

Velocity and inferred porosity model of the Oregon accretionary prism from multichannel seismic reflection data: Implications on sediment dewatering and overpressure

Use of acoustic classification of sidescan sonar data for mapping benthic habitat in the Northern Channel Islands, California

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