A search for thermal excursions from ancient extraterrestrial impacts using Hadean zircon Ti-U-Th-Pb depth profiles

Abstract: Few terrestrial localities preserve more than a trace lithic record prior to ca. 3.8 Ga greatly limiting our understanding of the first 700 Ma of Earth history, a period inferred to have included a spike in the bolide flux to the inner solar system at ca. 3.85-3.95 Ga (the Late Heavy Bombardment, LHB). An accessible record of this era may be found in Hadean detrital zircons from the Jack Hills, Western Australia, in the form of μm-scale epitaxial overgrowths. By comparing crystallization temperatures of pre-3.… Show more

“…Using a Pb diffusion law for monazite, the authors inverted the age profiles to show that the hanging wall gneisses underwent a cooling history characterized by initial rapid cooling to 750 • C, followed by cooling at 20 • C Ma −1 until a further phase of rapid cooling. Ion microprobe U-Pb age depth-profiling has also been applied to zircon from high-grade metamorphic rocks to constrain discordance mechanisms (Breeding et al, 2004) and also to date terrestrial impact structures (Abbott et al, 2012;Trail et al, 2007). Given the high temperatures required (>1000 • C) to generate diffusive age gradients over analytically detectable length scales, these studies confirm that zircon age gradients are typically attributable to processes other than volume diffusion, including sub-micron epitaxial overgrowths and deformation.…”

Rutile U–Pb age depth profiling: A continuous record of lithospheric thermal evolution

“…Using a Pb diffusion law for monazite, the authors inverted the age profiles to show that the hanging wall gneisses underwent a cooling history characterized by initial rapid cooling to 750 • C, followed by cooling at 20 • C Ma −1 until a further phase of rapid cooling. Ion microprobe U-Pb age depth-profiling has also been applied to zircon from high-grade metamorphic rocks to constrain discordance mechanisms (Breeding et al, 2004) and also to date terrestrial impact structures (Abbott et al, 2012;Trail et al, 2007). Given the high temperatures required (>1000 • C) to generate diffusive age gradients over analytically detectable length scales, these studies confirm that zircon age gradients are typically attributable to processes other than volume diffusion, including sub-micron epitaxial overgrowths and deformation.…”

Rutile U–Pb age depth profiling: A continuous record of lithospheric thermal evolution

“…This includes zircons with metamorphic rims, which might show annealed shock features. Abbott et al (2012) stated that $1/3 of the crust present during the bombardment would have been heated enough by impacts for metamorphic overgrowths to form on zircon grains. They found features in their zircons consistent with this process.…”

Evolution of the Earth: Plate Tectonics Through Time

“…Cates and Mojzsis, 2009;Abbott et al, 2012). Optical and electron images of the grains were created prior to depth profile analysis to help determine the target area in which to begin sputtering on the grain as well as to avoid cracks, inclusions, and other imperfections which have the potential to show erroneously high degrees of Pb * loss or contamination.…”

“…Abbott et al, 2012;Abramov et al, 2013). Samples directly returned from the Moon by the Apollo and Luna missions, however, have provided the means to construct size-frequency/age relationships for various well preserved cratered surfaces.…”

Micrometer-scale U–Pb age domains in eucrite zircons, impact re-setting, and the thermal history of the HED parent body