Record Details

North-south variability in the history of deformation and fluid venting across Hydrate Ridge, Cascadia margin

ScholarsArchive at Oregon State University

Field Value
Title North-south variability in the history of deformation and fluid venting across Hydrate Ridge, Cascadia margin
Names Johnson, Joel E. (creator)
Goldfinger, Chris (creator)
Tréhu, Anne M. (creator)
Bangs, Nathan Lawrence Bailey (creator)
Torres, Marta E. (creator)
Chevallier, Johanna (creator)
Date Issued 2006-10-20 (iso8601)
Abstract Hydrate Ridge is an accretionary thrust ridge located on the lower
slope of the central Cascadia convergent margin. Structural mapping
based on two-dimensional and three-dimensional multichannel seismic
reflection profiles and gridded bathymetry coupled with deep-towed
sidescan sonar data and Ocean Drilling Program (ODP) biostratigraphy
suggests that seafloor fluid venting patterns are likely controlled by the
seaward-vergent (SV) structural style at northern Hydrate Ridge (NHR)
and by the dominantly landward-vergent (LV) structural style at southern
Hydrate Ridge (SHR). North-south structural variability across Hydrate
Ridge is coincident with the seafloor authigenic carbonate
distribution, which varies from aerially extensive authigenic carbonate
crusts at NHR to a minor focused occurrence of authigenic carbonate at
SHR. The older stratigraphy exposed at the seafloor at NHR (>1.6–1.7
Ma) has likely been subjected to a longer history of sediment compaction,
dewatering, and deformation than the younger slope basin strata
preserved at SHR (1.7 Ma to recent), suggesting the extent of carbonates
at NHR may result from a longer history of fluid flow and/or more intense
venting through a more uplifted, lithified, and fractured NHR sequence.
Furthermore, recent work at SHR shows that the major seafloor
fluid venting site there is fed by fluid flow through a volcanic ash–bearing
turbidite sequence, suggesting stratigraphic conduits for fluid flow
may be important in less uplifted, LV-dominated portions of Hydrate Ridge. In addition, the variability in structural style observed at Hydrate
Ridge may have implications for the distributions and concentrations
of fluids and gas hydrates in other accretionary settings and play a role
in the susceptibility of accretionary ridges to slope failure.
Genre Article
Identifier Johnson, J. E., Goldfinger, C., Théhu, A. M., Bangs, N.L., Torres, M. E., & Chevallier, J. (2006). North-south variability in the history of deformation and fluid venting across Hydrate Ridge, Cascadia margin. Proceedings of the Ocean Drilling Program, Scientific results, 204, 1-16.

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