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O'Leary, D. M., Clowes, R. M., Ellis, R. M. (1993) Crustal velocity structure in the southern Coast Belt, British Columbia. Canadian Journal of Earth Sciences, 30 (12) 2389-2403 doi:10.1139/e93-207

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Reference TypeJournal (article/letter/editorial)
TitleCrustal velocity structure in the southern Coast Belt, British Columbia
JournalCanadian Journal of Earth Sciences
AuthorsO'Leary, D. M.Author
Clowes, R. M.Author
Ellis, R. M.Author
Year1993 (December 1)Volume30
Issue12
PublisherCanadian Science Publishing
DOIdoi:10.1139/e93-207Search in ResearchGate
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Mindat Ref. ID482002Long-form Identifiermindat:1:5:482002:8
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Full ReferenceO'Leary, D. M., Clowes, R. M., Ellis, R. M. (1993) Crustal velocity structure in the southern Coast Belt, British Columbia. Canadian Journal of Earth Sciences, 30 (12) 2389-2403 doi:10.1139/e93-207
Plain TextO'Leary, D. M., Clowes, R. M., Ellis, R. M. (1993) Crustal velocity structure in the southern Coast Belt, British Columbia. Canadian Journal of Earth Sciences, 30 (12) 2389-2403 doi:10.1139/e93-207
In(1993, December) Canadian Journal of Earth Sciences Vol. 30 (12) Canadian Science Publishing
Abstract/Notes We applied an iterative combination of two-dimensional traveltime inversion and amplitude forward modelling to seismic refraction data along a 350 km along-strike profile in the Coast Belt of the southern Canadian Cordillera to determine crust and upper mantle P-wave velocity structure. The crustal model features a thin (0.5–3.0 km) near-surface layer with an average velocity of 4.4 km/s, and upper-, middle-, and lower-crustal strata which are each approximately 10 km thick and have velocities ranging from 6.2 to 6.7 km/s. The Moho appears as a 2 km thick transitional layer with an average depth of 35 km and overlies an upper mantle with a poorly constrained velocity of over 8 km/s. Other interpretations indicate that this profile lies within a collision zone between the Insular superterrane and the ancient North American margin and propose two collision-zone models: (i) crustal delamination, whereby the Insular superterrane was displaced along east-vergent faults over the terranes below; and (ii) crustal wedging, in which interfingering of Insular rocks occurs throughout the crust. The latter model involves thick layers of Insular material beneath the Coast Belt profile, but crustal velocities indicate predominantly non-Insular material, thereby favoring the crustal delamination model. Comparisons of the velocity model with data from the proximate reflection lines show that the top of the Moho transition zone corresponds with the reflection Moho. Comparisons with other studies suggest that likely sources for intracrustal wide-angle reflections observed in the refraction data are structural features, lithological contrasts, and transition zones surrounding a region of layered porosity in the crust.

See Also

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Zelt, B. C., Ellis, R. M., Clowes, R. M. (1993) Crustal velocity structure in the eastern Insular and southernmost Coast belts, Canadian Cordillera. Canadian Journal of Earth Sciences, 30 (5) 1014-1027 doi:10.1139/e93-085
Hole, J. A., Clowes, R. M., Ellis, R. M. (1993) Interpretation of three-dimensional seismic refraction data from western Hecate Strait, British Columbia: structure of the crust. Canadian Journal of Earth Sciences, 30 (7) 1440-1452 doi:10.1139/e93-124
Hole, J. A., Clowes, R. M., Ellis, R. M. (1993) Interpretation of three-dimensional seismic refraction data from western Hecate Strait, British Columbia: structure of the Queen Charlotte Basin. Canadian Journal of Earth Sciences, 30 (7) 1427-1439 doi:10.1139/e93-123
Cumming, W. B., Clowes, R. M., Ellis, R. M. (1979) Crustal structure from a seismic refraction profile across southern British Columbia. Canadian Journal of Earth Sciences, 16 (5) 1024-1040 doi:10.1139/e79-090
Sevigny, J. H., Parrish, R. R. (1993) Age and origin of Late Jurassic and Paleocene granitoids, Nelson Batholith, southern British Columbia. Canadian Journal of Earth Sciences, 30 (12) 2305-2314 doi:10.1139/e93-200
Zelt, B. C., Ellis, R. M., Clowes, R. M., Kanasewich, E. R., Asudeh, I., Luetgert, J. H., Hajnal, Z., Ikami, A., Spence, G. D., Hyndman, R. D. (1992) Crust and upper mantle velocity structure of the Intermontane belt, southern Canadian Cordillera. Canadian Journal of Earth Sciences, 29 (7) 1530-1548 doi:10.1139/e92-121
Spence, G. D., Ellis, R. M., Clowes, R. M. (1977) Gravity evidence against a high-angle fault crossing the Rocky Mountain Trench near Radium, British Columbia. Canadian Journal of Earth Sciences, 14 (1) 25-31 doi:10.1139/e77-003
Vandall, T. A. (1993) Cretaceous Coast Belt paleomagnetic data from the Spetch Creek pluton, British Columbia: evidence for the "tilt and moderate displacement" model. Canadian Journal of Earth Sciences, 30 (5) 1037-1048 doi:10.1139/e93-087
Clowes, Ron M, Burianyk, Michael JA, Gorman, Andrew R, Kanasewich, Ernest R (2002) Crustal velocity structure from SAREX, the Southern Alberta Refraction Experiment. Canadian Journal of Earth Sciences, 39 (3) 351-373 doi:10.1139/e01-070
Kanasewich, E. R., Burianyk, M. J. A., Ellis, R. M., Clowes, R. M., White, D. J., Côté, T., Forsyth, D. A., Luetgert, J. H., Spence, G. D. (1994) Crustal velocity structure of the Omineca Belt, southeastern Canadian Cordillera. Journal of Geophysical Research: Solid Earth, 99. 2653-2670 doi:10.1029/93jb03108
Carr, Sharon D. (1991) Three crustal zones in the Thor–Odin – Pinnacles area, southern Omineca Belt, British Columbia. Canadian Journal of Earth Sciences, 28 (12) 2003-2023 doi:10.1139/e91-182
 
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