2005
DOI: 10.1139/e05-023
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Current tectonics of the northern Canadian Cordillera

Abstract: The northern Canadian Cordillera is remarkably tectonically and seismically active, extending from a terrane collision zone on the continental margin to an active fold and thrust belt at the eastern mountain front. The source and distribution of the deformation are constrained by (i) precision global positioning system (GPS) measurements; (ii) the seismicity distribution, mechanisms, and rates; (iii) the thermal regime; (iv) estimates of lithosphere thickness and strength; and (v) topography and gravity. The o… Show more

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Cited by 62 publications
(54 citation statements)
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“…However, plate boundary deformation is far reaching, with significant right‐lateral motion along the inland Denali fault, and current deformation across the whole northern Cordillera, apparently due to far‐field effects of the Yakutat collision far to the south. The transfer of strain from the collision zone to the eastern foreland belt (Mackenzie and Richardson Mountains) and possibly as far north as the Beaufort Sea was previously suggested by Mazzotti and Hyndman [2002] and Hyndman et al [2005a]. The current tectonics and seismicity of the region are discussed further in section 2.…”
Section: Introductionmentioning
confidence: 70%
“…However, plate boundary deformation is far reaching, with significant right‐lateral motion along the inland Denali fault, and current deformation across the whole northern Cordillera, apparently due to far‐field effects of the Yakutat collision far to the south. The transfer of strain from the collision zone to the eastern foreland belt (Mackenzie and Richardson Mountains) and possibly as far north as the Beaufort Sea was previously suggested by Mazzotti and Hyndman [2002] and Hyndman et al [2005a]. The current tectonics and seismicity of the region are discussed further in section 2.…”
Section: Introductionmentioning
confidence: 70%
“…4). It and its underlying mantle have sufficient strength or viscosity to buttress the present-day North America plate margin against convergence of the Kula-Pacific oceanic plate, but high regional geotherms suggest dynamic support, high degrees of melting and generally low viscosities (Hyndman et al 2005).…”
Section: Origin and More General Implicationsmentioning
confidence: 99%
“…Due to a corner effect of the Pacific subduction, hot mantle is progressively thinning and uplifting the North American lithosphere over an extremely wide surface, accounting for the post-Laramian collapse of the Cordilleran orogen coeval with the development of metamorphic core complexes and basin and range-type extension, for recent volcanic activity, but also for the wide doming and unroofing observed in the foreland, from Canada to southern Mexico (Price 1986;Hyndman et al 2005; Fig. 15c).…”
Section: Mantle Dynamics and Coupling With Surface Processesmentioning
confidence: 99%