Scientists have discovered an unexpectedly high quantity of pre-solar particles (dust from supernovae predating our solar system) in samples obtained from the near-Earth asteroid (101955) Bennu by NASA’s Osiris-Rex spacecraft.

Dr. Anh Nguyen from NASA’s Johnson Space Center and colleagues noted, “Pre-solar stardust particles are typically found in trace amounts within meteorites, interplanetary dust particles, Antarctic meteorites, samples returned from comet 81 P/Wild2 by NASA’s Stardust mission, and those from the carbonaceous asteroid Ryugu collected by JAXA’s Hayabusa2 mission.”

“Their distinct isotopic compositions arise from nucleosynthetic processes in evolved red giant stars, supernovae, and novae.”

“The mineralogy and chemistry of these pre-solar particles can provide insights into condensation conditions and the impacts of secondary alteration, as they are prone to changes and destruction in space, solar nebulae, and planetesimals.”

In their study, researchers examined pre-solar particles found within two different rock types in the samples from Bennu.

The sample had six times the particles compared to any other astronomical material studied, indicating its parent body formed in an area of a protoplanetary disk abundant with the dust from a dying star.

The research also pointed out that while Bennu’s parent asteroid has experienced significant fluid-induced alterations, there are still pockets of less-altered material within the sample, offering clues to its origins.

“These remnants are rich in organic compounds and pre-solar silicate particles, which are generally vulnerable to alteration caused by asteroid water,” Dr. Nguyen remarked.

“It’s remarkable that they were preserved in the Bennu sample, suggesting certain materials escaped alteration in the parent body.”

“Our investigation highlights the variety of pre-solar material that accumulates during parent formation.”

A study detailing the findings was published in the journal on December 2nd, in Nature Astronomy.

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Anh Nguyen et al. Abundant supernova dust and heterogeneous water alteration revealed by stardust of two lithofacies on asteroid Bennu. Nat Astron published online on December 2, 2025. doi: 10.1038/s41550-025-02688-3