Baddeleyite as a widespread and sensitive indicator of meteorite bombardment in planetary crusts
Baddeleyite as a widespread and sensitive indicator of meteorite bombardment in planetary crusts
Geology (Boulder) (August 2018) 46 (8): 719-722
- baddeleyite
- Canada
- Eastern Canada
- EDS spectra
- electron microscopy data
- granites
- igneous rocks
- impacts
- mafic composition
- Matachewan dike swarm
- metamorphism
- microstructure
- nesosilicates
- Ontario
- orthosilicates
- oxides
- Paleoproterozoic
- plutonic rocks
- Precambrian
- Proterozoic
- shock metamorphism
- silicates
- spectra
- Sudbury Structure
- upper Precambrian
- X-ray spectra
- zircon
- zircon group
Constraining the timing and intensity of Solar System bombardment is critical to understanding planetary formation, evolution and habitability. However, the identification and dating of shock-metamorphic events in the mafic igneous lithologies that dominate planetary materials remains highly challenging, particularly at relatively modest shock pressures. The accessory mineral baddeleyite (monoclinic-ZrO (sub 2) ) is common in these mafic crustal rocks, though the microstructural response of this mineral to shock loading is currently unconstrained. Here we show that baddeleyite yields a predictable sequence of microstructures in the shock pressure range of 5 to approximately 20 GPa, based on analysis of mafic rocks collected along a well-constrained shock-pressure gradient in the crystalline bedrock of the Sudbury impact structure, Canada. High-resolution electron backscatter diffraction mapping of baddeleyite grains exposed to <20 GPa of shock loading reveals a range of microstructures, including complex orthogonally related crystalline subgrains, amorphous domains, and crystal plastic deformation. Evidence that the observed microstructures are principally controlled by the transition to, and subsequent reversion from, the high-pressure (experimentally constrained to >5 GPa) orthorhombic-ZrO (sub 2) polymorph is provided by phase-heritage reconstruction using relationships between reverted monoclinic orientations. Baddeleyite is a sensitive shock barometer and chronometer over low pressure ranges that can augment ongoing studies into the intensity of Solar System bombardment.