Young asteroid families as the primary source of meteorites

TL;DR

This study links approximately 70% of meteorites to recent asteroid breakups in young asteroid families, revealing their dominant role in meteorite origins and their unique fragment size distribution compared to older families.

Contribution

It demonstrates that young asteroid families are the primary source of meteorites, highlighting their recent breakups and distinctive fragment characteristics compared to older asteroid populations.

Findings

70% of meteorites originate from recent asteroid breakups

Young families have a high abundance of small fragments

Size distribution of fragments remains steep for tens of millions of years

Abstract

Understanding the origin of bright shooting stars and their meteorite samples is among the most ancient astronomy-related questions that at larger scales has human consequences [1-3]. As of today, only ${\sim}\,6\%$ of meteorite falls have been firmly linked to their sources (Moon, Mars, and asteroid (4) Vesta [4-6]). Here, we show that ${\sim}\,70\%$ of meteorites originate from three recent breakups of $D > 30\,{\rm km}$ asteroids that occurred 5.8, 7.5 and less than ${\sim}\,40$ million years ago. These breakups, including the well-known Karin family [7], took place in the prominent yet old Koronis and Massalia families and are at the origin of the dominance of H and L ordinary chondrites among meteorite falls. These young families distinguish themselves amidst all main belt asteroids by having a uniquely high abundance of small fragments. Their size-frequency distribution remains steep for a few tens of millions of years, exceeding temporarily the production of metre-sized fragments by the largest old asteroid families (e.g., Flora, Vesta). Supporting evidence includes the existence of associated dust bands [8-10], the cosmic-ray exposure ages of H-chondrite meteorites [11,12], or the distribution of pre-atmospheric orbits of meteorites [13-15].