Dash, Ranjan and Spence, George (2011): P-wave and S-wave velocity structure of northern Cascadia margin gas hydrates

Leg/Site/Hole:
IODP 311
ODP 146
IODP 311 U1327
ODP 146 889
Identifier:
2012-020901
georefid

10.1111/j.1365-246X.2011.05215.x
doi

Creator:
Dash, Ranjan
University of Victoria, School of Earth and Ocean Sciences, Victoria, BC, Canada
author

Spence, George
author

Identification:
P-wave and S-wave velocity structure of northern Cascadia margin gas hydrates
2011
Geophysical Journal International
Wiley-Blackwell on behalf of The Royal Astronomical Society, the Deutsche Geophysikalische Gesellschaft and the European Geophysical Society, International
187
3
1363-1377
Single-channel seismic and wide-angle reflection data collected in September 2005 were analysed along a 2-D profile of 10 ocean bottom seismometers (OBSs) on the continental slope region off Vancouver Island, near ODP Site 889 and IODP Site U1327. The objectives were to determine the shallow P-wave and S-wave velocity structure associated with marine gas hydrates and to estimate the hydrate concentration and distribution in the sediment pore space. Combined traveltime inversion of single-channel and OBS data produced a P-wave velocity model down to the depth of the bottom-simulating reflector (BSR) at 230(+ or -5) m below the seafloor (mbsf). Mean velocities, which increased from 1.50 km s (super -1) at the seafloor to 1.88 km s (super -1) at the BSR, are in good agreement with the sonic log data from Sites 889 and U1327. The increase in P-wave velocity of the hydrate-bearing sediments relative to a background no-hydrate velocity was utilized to estimate the hydrate concentration by using effective medium theory. An average concentration of 13 per cent in the interval from 120-230 mbsf was estimated from the P-wave velocity model. Lateral continuity of the model data confirms that these average hydrate concentrations are also found around the drillsites out to distances of a few kilometres. Forward modelling of S-waves was carried out using the data from the OBS horizontal components. Above the BSR, S-wave velocities are higher than a background velocity profile based on a rock physics model and on global averages for unconsolidated sediments. This increase in velocity suggests that the hydrate is distributed as part of the load-bearing matrix to increase the rigidity of the sediment. Abstract Copyright (2011), RAS.
English
Serial
Coverage:Geographic coordinates:
North:48.4200
West:-126.5223East: -126.5200
South:48.4151

Solid-earth geophysics; Applied geophysics; attenuation; body waves; British Columbia; Canada; Cascadia Basin; crust; East Pacific; elastic waves; Expedition 311; gas hydrates; geophysical methods; geophysical profiles; geophysical surveys; Integrated Ocean Drilling Program; IODP Site U1327; Leg 146; North Pacific; Northeast Pacific; Ocean Drilling Program; ODP Site 889; offshore; P-waves; Pacific Ocean; permeability; porosity; reflection methods; S-waves; seismic methods; seismic profiles; seismic waves; simulation; surveys; tomography; Vancouver Island; velocity structure; Western Canada;

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