The structural and thermal evolution of major low-angle normal faults in the Colorado River extensional corridor has been a controversial topic since the pioneering studies of metamorphic core complexes in the early 1980s. We present new geo-thermochronometry data from the Harquahala Mountains in west-central Arizona to determine the timing of extension, displacement magnitude, and slip rates along the Eagle Eye detachment fault (EED) during large-magnitude Miocene extension. Zircon and apatite (U-Th)/He data (ZHe and AHe, respectively) from 31 samples along a similar to 55 km extension-parallel transect indicate active slip along the EED occurred between similar to 21 +/- 1 Ma and similar to 14 Ma. The spatial extent of ZHe ages and exhumation of the zircon partial retention zone indicated similar to 44 +/- 2 km of total displacement, whereas lithologic similarity and identical U-Pb ages between correlated footwall rocks in the Little Harquahala Mountains and breccia clasts at Bullard Peak in the NE Harcuvar Mountains indicated similar to 43-45 km of displacement across the EED. AHe and ZHe data indicated slip rates of similar to 6.7 + 7.8/-2.3 km/Myr, and similar to 6.6 + 7.1/-2.0 km/Myr, respectively, both consistent with the duration and displacement estimates. The EED initiated as a listric fault with an similar to 34 +/- 9 degrees dip that decreased to similar to 13 +/- 5 degrees below similar to 7 km depth. Secondary breakaway development and footwall exposure occurred by similar to 17 Ma, during active EED slip. Lithologic and geo-thermochronometric offset constraints show excellent agreement and provided a rare opportunity to fully resolve the timing, rates, and total displacement magnitudes along a major continental detachment fault.

• 出版日期2016-8