Footwall involvement during arc-continent collision, Ungava orogen, northern Canada

doi:10.1144/gsjgs.149.2.0237

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Journal of the Geological Society; 1992; v. 149; issue.2; p. 237-248;
DOI: 10.1144/gsjgs.149.2.0237
© 1992 Geological Society of London

Article

Footwall involvement during arc-continent collision, Ungava orogen, northern Canada

S. B. LUCAS¹ & T. BYRNE²

¹ Geological Survey of Canada, Continental Geoscience Division, 601 Booth Street, Ottawa, Ontario, Canada K1A 0E8
² Ocean Research Institute, University of Tokyo, Minami-dai 1–15–1, Nakano, Tokyo, 164, Japan

Geological evidence and theoretical models are presented toillustrate deformation paths followed by continental crust duringunderthrusting, subduction and collision. Fieldwork in an earlyProterozoic collisional orogen indicates that a thrust beltand its autochthonous footwall basement are obliquely exposedin a crustal cross-section with significant structural relief.The collisional orogen records an evolution in the style andextent of involvement of the Archaean footwall from: (1) underthrustingwithout evidence of internal deformation; (2) limited thrustingand ductile deformation of footwall rocks; to (3) folding ofthe entire thrust belt and its footwall into cuspate-lobate,long wavelength structures. The structural evolution occurredduring hydration of basement rocks coeval with collision-relatedmetamorphism. Lithospheric strength profiles, constrained bysimple numerical heat conduction models, suggest that the observeddeformation path for the footwall crust was controlled by weakeningdue to heating of basement rocks, and by changes in the relativestrengths of different crustal layers. The profiles predicta very weak lower crust and upper mantle at the time of footwall-involvedfolding, suggesting that the lower crust and upper mantle deformedby ductile flow concomitant with buckling of the stronger uppercrust.

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