2014 GSA Annual Meeting in Vancouver, British Columbia (19–22 October 2014)

Paper No. 148-6
Presentation Time: 2:20 PM

­­­FAULT-SLIP HISTORY OF THE BRUIN BAY FAULT SYSTEM, INISKIN PENINSULA, COOK INLET, ALASKA


BETKA, Paul M., Energy Section, Alaska Division of Geological and Geophysical Surveys, 3354 College Rd, Fairbanks, AK 99709 and GILLIS, Robert J., Alaska Department of Natural Resources, Alaska Geological Survey, 3354 College Rd, Fairbanks, AK 99709

The Bruin Bay fault system (BBFS) is a major northeast-striking structural boundary in southeastern Alaska that is continuous for >450 km from the upper Alaska Peninsula to the northwest terminus of Cook Inlet. The BBFS defines the tectonic boundary between the crystalline batholith and volcanic edifice of the Jurassic Talkeetna arc and Mesozoic and Cenozoic sediments of the Cook Inlet forearc basin that were primarily derived from the arc. Despite its large geographic extent and potential influence on the development of the Cook Inlet forearc basin, relatively little is known about the kinematic history of the BBFS. Kinematic analyses from a population of minor fault surfaces, presented herein, that are part of the BBFS on the Iniskin Peninsula describe bulk kinematics of deformation, discern kinematically compatible fault populations, and test for potential genetic relationships between sets of faults. Results indicate that the slip history of the BBFS was dominated by strike-slip deformation with a lesser component of top-southeast reverse motion. ~85% percent of the faults measured belong to one of two statistically distinct, kinematically compatible populations of faults. Faults from one set include northeast-striking reverse and left-lateral strike-slip faults and northwest-striking right-lateral faults that altogether record southeast-trending shortening. The second set includes northeast- and northwest-striking right- and left-lateral strike-slip faults, respectively, that record east-trending shortening. The remaining faults (~15% of the population) are classified into two additional kinematically unique subsets of oblique-slip faults and normal faults. Fault slip data and the spatial distribution of the two dominant fault populations indicate that fault reactivation likely occurred along all of the major structures that define the BBFS near the Iniskin Peninsula. We postulate that the majority (~85%) of faults in the study area record two regional deformational events that reflect oroclinal bending of the Alaska Peninsula and/or temporally variable convergence directions between the North American and the Pacific, Yakatut, Kula and Farallon plates along the continental margin of North America since the Jurassic.