In 2004, two seismic reflection lines were shot across the Mesozoic Whitehorse trough and adjacent terranes. Three-dimensional first-arrival tomographic inversion is used to constrain lithology to 800–1200 m depth, and surface structures are extrapolated into the middle crust using the coincident reflection data. In the Yukon–Tanana terrane, the metasedimentary Snowcap assemblage is characterized by velocities of 4.5–5.5 km/s, while in Quesnellia, velocities of 5.0–6.0 km/s occur at 500 m depth, and probably represent igneous rocks of the Tatchun batholith. Across the Whitehorse trough, velocities >4.0 km/s correspond to clastic rocks of the Jurassic Laberge and Triassic Lewes River groups; velocities <4.0 km/s probably present the clastic Jurassic to Cretaceous Tantalus Formation. Several near-surface units with velocities of 2.0–3.0 km/s are identified; some correlate well with volcanic rocks of the Upper Cretaceous Carmacks Group, but others could be attributable to alluvial deposits or faulting. The Big Salmon fault is interpreted to dip southwest, implying that rocks of the Yukon–Tanana terrane extend beneath Quesnellia. Stikinia and Quesnellia underlie up to 5–8 km of Triassic to Early Cretaceous sedimentary strata, and appear to be a single allochthon within an 18–20 km deep synform above the Yukon–Tanana terrane, which we name the Northern Intermontane synform. In general, reflection geometries in the upper crust are complex, but are consistent with large-scale imbricate structures that have been dissected into numerous blocks by displacement along moderately to steeply dipping strike-slip faults, which may be part of a crustal-scale flower structure extending to the base of the crust.
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Research Article|
April 21, 2017
Seismic and gravity constraints on the crustal architecture of the Intermontane terranes, central Yukon
Andrew J. Calvert;
a
Department of Earth Sciences, Simon Fraser University, 8888 University Drive, Burnaby, BC V5A 1S6, Canada.Corresponding author: Andrew J. Calvert (email: [email protected]).
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Nathan Hayward;
Nathan Hayward
b
Geological Survey of Canada, 1500 – 605 Robson Street, Vancouver, BC V6B 5J3, Canada.
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Rajesh Vayavur;
Rajesh Vayavur
a
Department of Earth Sciences, Simon Fraser University, 8888 University Drive, Burnaby, BC V5A 1S6, Canada.
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Maurice Colpron
Maurice Colpron
c
Yukon Geological Survey, P.O. Box 2703 (K-14), Whitehorse, YT Y1A 2C6, Canada.
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a
Department of Earth Sciences, Simon Fraser University, 8888 University Drive, Burnaby, BC V5A 1S6, Canada.
Nathan Hayward
b
Geological Survey of Canada, 1500 – 605 Robson Street, Vancouver, BC V6B 5J3, Canada.
Rajesh Vayavur
a
Department of Earth Sciences, Simon Fraser University, 8888 University Drive, Burnaby, BC V5A 1S6, Canada.
Maurice Colpron
c
Yukon Geological Survey, P.O. Box 2703 (K-14), Whitehorse, YT Y1A 2C6, Canada.Corresponding author: Andrew J. Calvert (email: [email protected]).
Publisher: Canadian Science Publishing
Received:
20 Oct 2016
Accepted:
20 Apr 2017
First Online:
05 Oct 2017
Online ISSN: 1480-3313
Print ISSN: 0008-4077
Published by NRC Research Press
Canadian Journal of Earth Sciences (2017) 54 (7): 798–811.
Article history
Received:
20 Oct 2016
Accepted:
20 Apr 2017
First Online:
05 Oct 2017
Citation
Andrew J. Calvert, Nathan Hayward, Rajesh Vayavur, Maurice Colpron; Seismic and gravity constraints on the crustal architecture of the Intermontane terranes, central Yukon. Canadian Journal of Earth Sciences 2017;; 54 (7): 798–811. doi: https://doi.org/10.1139/cjes-2016-0189
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Index Terms/Descriptors
- Bouguer anomalies
- Canada
- crust
- data processing
- deformation
- faults
- geophysical methods
- geophysical profiles
- geophysical surveys
- gravity anomalies
- gravity methods
- inverse problem
- lithostratigraphy
- methods
- reflection methods
- seismic methods
- seismic profiles
- stratigraphic units
- surveys
- tectonics
- tectonostratigraphic units
- three-dimensional models
- tomography
- Western Canada
- Whitehorse Trough
- Yukon Territory
Latitude & Longitude
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