2009 Portland GSA Annual Meeting (18-21 October 2009)

Paper No. 4
Presentation Time: 8:45 AM

APPLICATION OF LU-HF GARNET DATING TO UNRAVEL THE RELATIONSHIPS BETWEEN DEFORMATION, METAMORPHISM AND PLUTONISM: AN EXAMPLE FROM THE PRINCE RUPERT AREA, BRITISH COLUMBIA


WOLF, David E., Earth and Atmospheric Sciences, Cornell University, 4154 Snee Hall, Ithaca, NY 14853-1504, ANDRONICOS, Christopher L., Earth and Atmospheric Sciences, Purdue University, West Lafayette, IN 47907, VERVOORT, Jeffery D., School of the Environment, Washington State University, Pullman, WA 99164, MANSFIELD, Michael R., Department of Geological Sciences, University of Texas El Paso, 500 W University Ave, El Paso, TX 79968 and CHARDON, Dominique, Laboratoire des Mécanismes et Transferts en Géologie, Université de Toulouse, 14 avenue Edouard Belin, Toulouse, 31400, France, dew36@cornell.edu

The tectonic history of the Prince Rupert area is marked by profound crustal thickening from thrusting that produced inverted metamorphic field gradients and transpression in crustal-scale shear zones. Syn-tectonic garnet in the Prince Rupert area have Lu-Hf ages of 102.6±3.7 Ma and 108.3±4.1 Ma (2σ). Porphyroblast-matrix relationships in these samples, and samples from the same outcrops, indicate syn-tectonic garnet growth. These relationships imply that the garnet ages directly date the development of the metamorphic foliations. A third sample of migmatitic garnet amphibolite from the inner contact aureole of the 94-90 Ma Ecstall pluton had complex isotope systematics interpreted to indicate a garnet growth episode ~105 Ma, similar to the ages obtained from the other samples and a growth or equilibration event at ~94 Ma during pluton emplacement. The data show that the older Lu-Hf garnet ages date prograde metamorphism during foliation development and modification during pluton emplacement. The Ecstall pluton was emplaced 10 to 15 m.y. after regional metamorphism and thrust stacking in the Prince Rupert area. Contractional deformation occurred throughout much of the North American Cordillera at this time. Left-lateral transpression dominated the Canadian Cordillera, whereas, right-lateral transpression affected areas south of the Idaho-Salmon River suture zone, including the Sierra Nevada batholith. This reversal in kinematics in the northern and southern cordillera within coeval magmatic belts appears to be a first order feature of the geology of the North American Cordillera during the Cretaceous.