“…The dextral strike-slip Denali Fault System in southern Alaska has long been the target of geophysical studies. With a well-documented 10-km northward thinning of the crust across the Denali Fault System and/or Hines Creek Fault (Figure 11b; Rossi et al, 2006;Veenstra et al, 2006;Brennan et al, 2011;Allam et al, 2017;Miller et al, 2018;Martin-Short et al, 2018;Haney et al, 2020;Mann et al, 2022;Gama et al, 2022aGama et al, , 2022b, the overall Denali Fault System acts as a major crustal boundary that separates the Alaska Range and the Wrangellia composite terrane to the south and the North American affinity terranes in the interior of Alaska to the north (W. Nokleberg et al, 2013;Benowitz et al, 2022). High-resolution finite-element models of Alaska that incorporated a Denali fault lithospheric shear zone (Jadamec et al, 2013;Haynie & Jadamec, 2017) found a better fit to surface motion and regions of exhumation and subsidence in south-central Alaska than models that did not include a Denali fault shear zone (Jadamec & Billen, 2010, 2012.…”