Vote for your favorite mineral in #MinCup25! - Dioptase vs. Wavellite
It's a green, green world for kiwi #wavellite vs desert emerald #dioptase.
Log InRegister
Quick Links : The Mindat ManualThe Rock H. Currier Digital LibraryMindat Newsletter [Free Download]
Home PageAbout MindatThe Mindat ManualHistory of MindatCopyright StatusWho We AreContact UsAdvertise on Mindat
Donate to MindatCorporate SponsorshipSponsor a PageSponsored PagesMindat AdvertisersAdvertise on Mindat
Learning CenterWhat is a mineral?The most common minerals on earthInformation for EducatorsMindat ArticlesThe ElementsThe Rock H. Currier Digital LibraryGeologic Time
Minerals by PropertiesMinerals by ChemistryAdvanced Locality SearchRandom MineralRandom LocalitySearch by minIDLocalities Near MeSearch ArticlesSearch GlossaryMore Search Options
Search For:
Mineral Name:
Locality Name:
Keyword(s):
 
The Mindat ManualAdd a New PhotoRate PhotosLocality Edit ReportCoordinate Completion ReportAdd Glossary Item
Mining CompaniesStatisticsUsersMineral MuseumsClubs & OrganizationsMineral Shows & EventsThe Mindat DirectoryDevice SettingsThe Mineral Quiz
Photo SearchPhoto GalleriesSearch by ColorNew Photos TodayNew Photos YesterdayMembers' Photo GalleriesPast Photo of the Day GalleryPhotography

Hyndman, R. D., Yorath, C. J., Clowes, R. M., Davis, E. E. (1990) The northern Cascadia subduction zone at Vancouver Island: seismic structure and tectonic history. Canadian Journal of Earth Sciences, 27 (3) 313-329 doi:10.1139/e90-030

Advanced
   -   Only viewable:
Reference TypeJournal (article/letter/editorial)
TitleThe northern Cascadia subduction zone at Vancouver Island: seismic structure and tectonic history
JournalCanadian Journal of Earth Sciences
AuthorsHyndman, R. D.Author
Yorath, C. J.Author
Clowes, R. M.Author
Davis, E. E.Author
Year1990 (March 1)Volume27
Issue3
PublisherCanadian Science Publishing
DOIdoi:10.1139/e90-030Search in ResearchGate
Generate Citation Formats
Mindat Ref. ID480820Long-form Identifiermindat:1:5:480820:0
GUID0
Full ReferenceHyndman, R. D., Yorath, C. J., Clowes, R. M., Davis, E. E. (1990) The northern Cascadia subduction zone at Vancouver Island: seismic structure and tectonic history. Canadian Journal of Earth Sciences, 27 (3) 313-329 doi:10.1139/e90-030
Plain TextHyndman, R. D., Yorath, C. J., Clowes, R. M., Davis, E. E. (1990) The northern Cascadia subduction zone at Vancouver Island: seismic structure and tectonic history. Canadian Journal of Earth Sciences, 27 (3) 313-329 doi:10.1139/e90-030
In(1990, March) Canadian Journal of Earth Sciences Vol. 27 (3) Canadian Science Publishing
Abstract/Notes The structure and Tertiary tectonic history of the northern Cascadia subduction zone have been delineated by a series of new multichannel seismic lines acquired across the continental shelf to the deep sea, combined with adjacent land multichannel seismic data and results from a wide range of other geophysical and geological studies. The top of the downgoing oceanic crust is imaged for a remarkable distance downdip from the deep ocean basin to a depth of 40 km beneath Vancouver Island. The reflection depths are in good agreement with seismic refraction models and Benioff–Wadati seismicity. Two broad reflective bands imaged as dipping gently landward at depths of about 15 and 30 km on the land lines merge to a single reflector band offshore. They may represent underplated oceanic material or, alternatively, they may not be structural but may be zones of contrasting physical properties, perhaps representing trapped fluid. Two narrow terranes, the Mesozoic marine sedimentary Pacific Rim Terrane and the Eocene marine volcanic Crescent Terrane, have been thrust beneath, and accreted to, the margin in the Eocene, about 42 Ma, near the start of the present phase of subduction. They provide a landward-dipping backstop to the large sediment wedge accreted since that time. The deformation front is characterized by mainly landward-dipping thrust faults that cut close to basement. This result and the mass balance of the incoming sediment compared with that present in the accreted wedge suggest that there is little subduction of sediment into the mantle. The Tofino Basin sediments, up to 4 km in thickness, have been deposited on the continental shelf over the accreted terranes and the developing accretionary wedge.

See Also

These are possibly similar items as determined by title/reference text matching only.

Clowes, R. M., Brandon, M. T., Green, A. G., Yorath, C. J., Brown, A. Sutherland, Kanasewich, E. R., Spencer, C. (1987) LITHOPROBE—southern Vancouver Island: Cenozoic subduction complex imaged by deep seismic reflections. Canadian Journal of Earth Sciences, 24 (1) 31-51 doi:10.1139/e87-004
Clowes, R. M., Brandon, M. T., Green, A. G., Yorath, C. J., Brown, A. Sutherland, Kanasewich, E. R., Spencer, C. J. (1988) LITHOPROBE—southern Vancouver Island: Cenozoic subduction complex imaged by deep seismic reflections: Reply. Canadian Journal of Earth Sciences, 25 (1) 164-165 doi:10.1139/e88-019
Clowes, Ron M., Hyndman, R.D., Yorath, C.J., Davis, E.E. (1990) The structure and tectonic history of the western Canada subduction zone. Tectonophysics, 173 (1) 641 doi:10.1016/0040-1951(90)90252-4
Hyndman, R. D. (1995) The Lithoprobe corridor across the Vancouver Island continental margin: the structural and tectonic consequences of subduction. Canadian Journal of Earth Sciences, 32 (10) 1777-1802 doi:10.1139/e95-138
Yorath, C. J., Green, A. G., Clowes, R. M., Brown, A. Sutherland, Brandon, M. T., Kanasewich, E. R., Hyndman, R. D., Spencer, C. (1985) Lithoprobe, southern Vancouver Island: Seismic reflection sees through Wrangellia to the Juan de Fuca plate. Geology, 13 (11) 759 doi:10.1130/0091-7613(1985)13<759:lsvisr>2.0.co;2
Phadke, Suhas, Kanasewich, Ernest R. (1990) Seismic tomography to obtain velocity gradients and three-dimensional structure and its application to reflection data on Vancouver Island. Canadian Journal of Earth Sciences, 27 (1) 104-116 doi:10.1139/e90-008
Clowes, Ron M., Baird, David J., Dehler, Sonya A. (1997) Crustal structure of the Cascadia subduction zone, southwestern British Columbia, from potential field and seismic studies. Canadian Journal of Earth Sciences, 34 (3) 317-335 doi:10.1139/e17-028
Hyndman, R. D., Wang, K., Yuan, T., Spence, G. D. (1993) Tectonic sediment thickening, fluid expulsion, and the thermal regime of subduction zone accretionary prisms: The Cascadia Margin off Vancouver Island. Journal of Geophysical Research: Solid Earth, 98. 21865-21876 doi:10.1029/93jb02391
Irving, E., Brandon, M. T. (1990) Paleomagnetism of the Flores volcanics, Vancouver Island, in place by Eocene time. Canadian Journal of Earth Sciences, 27 (6) 811-817 doi:10.1139/e90-083
Yorath, C. J., Hyndman, R. D. (1983) Subsidence and thermal history of Queen Charlotte Basin. Canadian Journal of Earth Sciences, 20 (1) 135-159 doi:10.1139/e83-013
Ramachandran, K., Hyndman, R. D., Brocher, T. M. (2006) RegionalPwave velocity structure of the Northern Cascadia Subduction Zone. Journal of Geophysical Research: Solid Earth, 111. doi:10.1029/2005jb004108
 
and/or  
Mindat.org is an outreach project of the Hudson Institute of Mineralogy, a 501(c)(3) not-for-profit organization.
Copyright © mindat.org and the Hudson Institute of Mineralogy 1993-2025, except where stated. Most political location boundaries are © OpenStreetMap contributors. Mindat.org relies on the contributions of thousands of members and supporters. Founded in 2000 by Jolyon Ralph.
To cite: Ralph, J., Von Bargen, D., Martynov, P., Zhang, J., Que, X., Prabhu, A., Morrison, S. M., Li, W., Chen, W., & Ma, X. (2025). Mindat.org: The open access mineralogy database to accelerate data-intensive geoscience research. American Mineralogist, 110(6), 833–844. doi:10.2138/am-2024-9486.
Privacy Policy - Terms & Conditions - Contact Us / DMCA issues - Report a bug/vulnerability Current server date and time: September 10, 2025 22:43:16
Go to top of page