Abstract Zircon (U–Th)/He (ZHe) data were acquired for 23 Proterozoic basement samples from an E–W transect through the Colorado Front Range to evaluate whether metamict zircons yield sensible (U–Th)/He data… Click to show full abstract
Abstract Zircon (U–Th)/He (ZHe) data were acquired for 23 Proterozoic basement samples from an E–W transect through the Colorado Front Range to evaluate whether metamict zircons yield sensible (U–Th)/He data patterns and useful thermal history information. The 112 ZHe dates vary from 147 to 7 Ma, define positive and negative date–eU correlations, and are younger than titanite (U–Th)/He dates that range from 976 to 614 Ma. At moderate to high alpha dose of 10 18 – 10 19 α / g , zircons from the range core yield Laramide ( 52.5 ± 9.6 Ma) dates, whereas those within ∼15 km of the range front yield Miocene ( 21.6 ± 7.7 Ma) results. The He dates for the high alpha dose zircons are reproducible within each sample suite despite their visibly metamict character. The ∼20 Ma range front ZHe dates are younger than apatite (U–Th)/He (AHe) dates ( 66.5 ± 9.6 Ma) and published apatite fission-track data (65–45 Ma) for the same and nearby samples. Thermal history simulations can reproduce the first-order range front date–eU patterns and ZHe–AHe date inversion, but the high-damage zircons are more He retentive than predicted by the zircon damage He kinetic model. The ∼20 Ma ZHe dates may be explained by reheating from hydrothermal fluids along range front faults. The results demonstrate the promise of using He data for high-damage zircons to detect low-temperature (
               
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