The asteroid that may have killed the dinosaurs came from beyond Jupiter

The asteroid that may have killed the dinosaurs came from beyond Jupiter

Earth’s most famous killer asteroid came from the outer reaches of the solar system, researchers report in the Aug. 16 Science.

About 66 million years ago, an asteroid slammed into the sea just off Mexico’s Yucatán Peninsula, forming the Chicxulub crater. That powerful impact may have triggered a mass extinction event on Earth, killing off more than 60 percent of the planet’s species, including all nonbird dinosaurs (SN: 1/25/17). The impact left geochemical fingerprints, such as elevated levels of the element iridium, in a thin layer of rock found in multiple countries around the globe (SN: 9/8/84).   

Now, new chemical analyses of those rock layers, which mark the boundary between the Cretaceous and Paleogene periods (known as KPg), are helping to create a forensic profile of the killer asteroid.

Geochemist Mario Fischer-Gödde of the University of Cologne in Germany and colleagues measured five isotopes, or forms, of ruthenium in the KPg rock layers, as well as in five impact craters that occurred between 36 million and 470 million years ago and in Earth-based platinum ores (SN: 12/18/18).

Ruthenium, like iridium, is a platinum-group element, rare in Earth’s crust but abundant in asteroids and other space rocks. However, the relative abundance of ruthenium isotopes varies among space objects depending on where they originate.

The ruthenium signatures in the KPg rocks were indistinguishable from one another, tying them all to the same event, the team found. And that event was definitely extraterrestrial, not from ashfall due to intense volcanic eruptions that have also been implicated in the dinosaurs’ demise (SN: 9/28/23).

Rock layers around the world contain geochemical fingerprints of the asteroid impact 66 million years ago. Here, the tip of a rock hammer points to a thin, whitish rock layer containing elevated levels of iridium in an outcrop north of Drumheller in Alberta, Canada. That layer marks the geologic boundary between the Cretaceous and the Paleogene periods.Francois Gohier/Science Source

Most meteorites found on Earth are stony, or siliceous, asteroids, originating from the nearby asteroid belt between Mars and Jupiter. That belt was also the origin of the five non-Chicxulub impactors.

But the Chicxulub impactor was a carbonaceous asteroid, originating in the outer reaches of the solar system, from an ancient asteroid belt beyond Jupiter (SN: 12/16/22). Now that’s far out.

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