T42B-01
NEW INSIGHTS ON THE GEOLOGIC FRAMEWORK OF ALASKA AND POTENTIAL TARGETS OF OPPORTUNITY FOR FUTURE RESEARCH

Thursday, 17 December 2015: 10:20
306 (Moscone South)
Kenneth Daniel Ridgway1, Jeffrey M Trop2, Emily Finzel3, Patrick R Brennan4, Hersh J Gilbert5 and Lucy M Flesch5, (1)Purdue Univ, West Lafayette, IN, United States, (2)Bucknell University, Lewisburg, PA, United States, (3)University of Iowa, Iowa City, IA, United States, (4)Chevron Energy Technology Company, Houston, TX, United States, (5)Purdue University, West Lafayette, IN, United States
Abstract:
Studies the past decade have fundamentally changed our perspective on the Mesozoic and Cenozoic tectonic configuration of Alaska. New concepts include: 1) A link exists between Mesozoic collisional zones, Cenozoic strike-slip fault systems, and active deformation that is related to lithospheric heterogeneities that remain over geologic timescales. The location of the active Denali fault and high topography, for example, is within a Mesozoic collisional zone. Rheological differences between juxtaposed crustal blocks and crustal thickening in this zone have had a significant influence on deformation and exhumation in south-central Alaska. In general, the original configuration of the collisional zone appears to set the boundary conditions for long-term and active deformation. 2) Subduction of a spreading ridge has significantly modified the convergent margin of southern Alaska. Paleocene-Eocene ridge subduction resulted in surface uplift, unconformity development and changes in deposystems in the forearc region, and magmatism that extended from the paleotrench to the retroarc region. 3) Oligocene to Recent shallow subduction of an oceanic plateau has markedly reconfigured the upper plate of the southern Alaska convergent margin. This ongoing process has prompted growth of some of the largest mountain ranges on Earth, exhumation of the forearc and backarc regions above the subducted slab, development of a regional gap in arc magmatism above the subducted slab as well as slab-edge magmatism, and displacement on the Denali fault system.

In the light of these new tectonic concepts for Alaska, we will discuss targets of opportunity for future integrated geologic and geophysical studies. These targets include regional strike-slip fault systems, the newly recognized Bering plate, and the role of spreading ridge and oceanic plateau subduction on the location and pace of exhumation, sedimentary basin development, and magmatism in the upper plate.