Dark primitive asteroids account for a large share of K/Pg-scale impacts on the Earth
Abstract
A dynamical model for large near-Earth asteroids (NEAs) is developed here to understand the occurrence rate and nature of Cretaceous-Paleogene (K/Pg) scale impacts on the Earth. We find that 16-32 (2-4) impacts of diameter D > 5 km (D > 10 km) NEAs are expected on the Earth in 1 Gyr, with about a half of impactors being dark primitive asteroids (most of which start with semimajor axis a > 2 . 5 au). These results explain why the Chicxulub crater, the third largest impact structure found on the Earth (diameter ≃ 180 km), was produced by impact of a carbonaceous chondrite. They suggest, when combined with previously published results for small (D ≲ 1 km) NEAs, a size-dependent sampling of the main belt. We conclude that the impactor that triggered the K/Pg mass extinction ≃ 66 Myr ago was a main belt asteroid that quite likely (≃ 60 % probability) originated beyond 2.5 au.
- Publication:
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Icarus
- Pub Date:
- November 2021
- DOI:
- Bibcode:
- 2021Icar..36814621N
- Keywords:
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- Near-Earth objects;
- Asteroids;
- Dynamics;
- Impact processes;
- Cratering;
- Astrobiology