T42B-03
An Integrated View of Tectonics in the North Pacific Derived from GPS

Thursday, 17 December 2015: 10:50
306 (Moscone South)
Julie Elliott1, Jeff Freymueller2, Anaïs Marechal3, Chris Larsen4 and Maria Alejandra Perea Barreto1,5, (1)Purdue University, West Lafayette, IN, United States, (2)University of Alaska Fairbanks, Fairbanks, AK, United States, (3)Organization Not Listed, Washington, DC, United States, (4)Geophysical Institute, Fairbanks, AK, United States, (5)Universidad Nacional de Colombia, Bogota, Colombia
Abstract:
Textbooks show a simple picture of the tectonics of the North Pacific, with discrete deformation along the boundary between the Pacific and North American plates along the Aleutian megathrust and Fairweather/Queen Charlotte fault system. Reality is much more complex, with a pattern of broadly distributed deformation. This is in part due to a number of studies and initiatives (such as PBO) in recent years that have greatly expanded the density of GPS data throughout the region. We present an overview of the GPS data acquired and various tectonic interpretations developed over the past decade and discuss a current effort to integrate the available data into a regional tectonic model for Alaska and northwestern Canada.

Rather than discrete plate boundaries, we observe zones of concentrated deformation where the majority of the relative plate motion is accommodated. Within these zones, there are major fault systems, such as the Fairweather-Queen Charlotte transform and the Aleutian megathrust, where most of the deformation occurs along a main structure, but often motion is instead partitioned across multiple faults, such as the fold-and-thrust belt of the eastern St. Elias orogen. In zones of particular complexity, such as the eastern syntaxis of the St. Elias orogen, the deformation is better described by continuum deformation than localized strain along crustal structures. Strain is transferred far inboard, either by diffuse deformation or along fault system such as the Denali fault, and outboard of the main zones of deformation. The upper plate, if it can be called such, consists of a number of blocks and deforming zones while the lower plate is segmented between the Yakutat block and Pacific plate and is also likely undergoing internal deformation.