Title page for ETD etd-07032006-104340

Type of Document Master's Thesis
Author McAleer, Ryan Joseph
Author's Email Address rmcaleer@vt.edu
URN etd-07032006-104340
Title Late Cenozoic Exhumation in a Transpressional Setting: Fairweather Range, Alaska
Degree Master of Science
Department Geosciences
Advisory Committee
Advisor Name Title
Spotila, James A. Committee Chair
Hole, John A. Committee Member
Law, Richard D. Committee Member
  • glacial erosion
  • exhumation
  • Alaska
  • AHe dating
  • transpression
Date of Defense 2006-06-28
Availability restricted
Late Cenozoic Exhumation in a Transpressional Setting:

Fairweather Range, Alaska

Ryan J. McAleer


Deformation in southern Alaska is controlled by the accretion and partial subduction of the Yakutat terrane as margin-parallel motion transitions to subduction. Recent studies have shown that deformation in the St. Elias orogen, at the northern end of the terrane, accommodates a large portion of convergence, but deformation at the eastern and southern margins remains more poorly constrained. Rapid recent sedimentation (> 1cm/yr) and glacio-isostatic uplift rates (> 3 cm/yr) in the Fairweather corridor highlight short-term vertical deformation at the eastern margin; however, the relationship between these rates and long-term deformation is less well known.

New low-temperature cooling ages are reported along the eastern flank of the St. Elias orogen, placing constraints on vertical deformation over the past few million years. Young cooling ages (< 3 Ma) occur in a broad zone, extending along the onshore length of the strike-slip Fairweather fault. These ages indicate that protracted convergence has been accommodated in the Fairweather corridor. Average (~1 mm/yr) and peak (~3 mm/yr) late Cenozoic exhumation rates are similar to rates to the north, and suggest that the orogen is actually boomerang-shaped in map view. If ~1 mm/yr exhumation has been steady, the onset of rapid exhumation is constrained to post-12 Ma, but likely occurred at 5 Ma with changes in climate and plate obliquity. Although cooling ages reveal no coherent regional pattern relative to known structures, they indicate the margin accommodates a significant component of pure shear and is slip-partitioned. The resolved magnitude of convergence in the Fairweather corridor also indicates that Yakutat terrane motion is rotated from Pacific plate motion, and likely requires significant slip on the Transition fault at the southern edge of the Yakutat terrane. Although million-year exhumation rates are rapid, they are slower than short-term rates related to deglaciation.

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