Richard O. Lease Peter J. Haeussler Terry Pavlis Michael Mann Jeff Benowitz 2024 <div id="preview-section-abstract"><div id="abstracts" class="Abstracts u-font-serif"><div id="ab0005" class="abstract author" lang="en"><div id="as0005"><div id="sp0070" class="u-margin-s-bottom"><span>Oblique-slip along transform fault boundaries is often partitioned between a strike-slip system and&nbsp;thrust faults&nbsp;that accommodate contraction. However, topography along the Yakutat-North American transform (Fairweather fault), is asymmetric with low-terrain above active thrusts on the western, Yakutat side of the transform and high topography on the continental side with peaks &gt;4500&nbsp;m (Mount Fairweather: 4671&nbsp;m) to the west of the Border Ranges fault, limited recorded earthquakes &gt;M4, and no apparent reverse faults to generate the highest terrain. In this study we compile, for the first time, published U-Pb&nbsp;zircon,&nbsp;</span>⁴⁰Ar/³⁹<span>Ar and K-Ar (hornblende,&nbsp;muscovite, and biotite) and U-Th/He and fission-track (zircon and apatite) bedrock ages (109) from 75 samples to investigate the exhumation history of the Fairweather Range region, complemented by a published detrital sample (ZFT and AFT) and 13 new&nbsp;</span>⁴⁰Ar/³⁹<span>Ar (hornblende,&nbsp;biotite, and K-feldspar) ages on 9 bedrock samples from both sides of the Fairweather fault. Additionally, we examined published&nbsp;seismicity&nbsp;and&nbsp;geodetic data&nbsp;of the Fairweather region and assessed if plate paleo-vectors correlate with the cooling history of the Fairweather Range. Cooling age, seismic, and block-motion patterns indicate the Fairweather Range has been vertically extruded between the Fairweather and the Border Ranges faults as a coherent block since ca. 25&nbsp;Ma. The pre-6&nbsp;Ma&nbsp;Pacific plate&nbsp;motion (N30°W) aligns with the N33°W strike of the Fairweather Fault whereas a hypothetical pre-6&nbsp;Ma Yakutat&nbsp;microplate&nbsp;paleo-vector of (N39°W) does not: indicating a post-6&nbsp;Ma timing for Yakutat&nbsp;microplate&nbsp;counter-clockwise rotation (9°). We infer that rotation and impingement of the Yakutat microplate along the Fairweather fault at ca. 3&nbsp;Ma led to the development of the Fairweather restraining bend and increased cooling rates. The resultant thickened Fairweather welt and the ∼30&nbsp;km thick southeast end of the Yakutat microplate compounded double-indenter tectonics into Alaska's southeast convergent corner</span></div></div></div></div></div> application/pdf 10.1016/j.tecto.2024.230337 en Elsevier Fairweather transform boundary Oligocene to present orogenesis: Fairweather Range vertical extrusion and rotation of the Yakutat microplate at ca. 3 Ma article