But the new research found evaporated water on Bennu’s parent asteroid left behind “the raw ingredients of life”, said Tim McCoy, curator of meteorites at the Smithsonian’s National Museum of Natural History and co-lead author of one of the studies.
“We have discovered that next step on a pathway to life,” he said in a press release issued by the museum.
Bennu appears to have formed around 65 million years ago from the debris of a parent asteroid dating back some 4.5 billion years.
The findings suggest Bennu’s parent was once home to pockets of liquid water. When these evaporated, they left behind a “briny broth” of salts and minerals.
Some of the minerals include compounds that have never been seen in samples from outer space, the museum said.
Analysis of the samples also strongly suggests a “non-terrestrial origin”, adds one of the studies.
That could lend support to the theory that life on Earth was seeded from outer space.
The samples “give unprecedented insight into the processes that drove the formation of the solar system,” according to Yasuhito Sekine, a professor at the Institute of Science Tokyo.
“This discovery was only possible by analysing samples that were collected directly from the asteroid then carefully preserved back on Earth.
“The salts would otherwise have rapidly absorbed moisture in the Earth’s humid atmosphere.”
‘Huge progress’
The researchers believe similar salty brines may exist on other extraterrestrial bodies, including the dwarf planet Ceres and Saturn’s moon Enceladus, as well as other asteroids.
They plan to re-examine specimens already on Earth for traces of compounds that previous research might have missed.
“Even though asteroid Bennu has no life, the question is could other icy bodies harbour life?” said Nick Timms, an associate professor at Curtin University’s School of Earth and Planetary Sciences also involved in the research.
Much about life’s origin remains unclear despite the secrets revealed from Bennu, McCoy said.
“We now know we have the basic building blocks to move along this pathway towards life, but we don’t know how far along that pathway this environment could allow things to progress,” he said.
Still, Sara Russell, co-lead author with McCoy and a cosmic mineralogist at the museum, said the research had made “huge progress in understanding how asteroids like Bennu evolved, and how they may have helped make the Earth habitable”.
Osiris-Rex wasn’t the first probe to rendezvous with an asteroid and bring back samples for study – Japan succeeded in the feat twice, returning celestial dust in 2010 and 2020.
In addition to scientific insights, a better understanding of Bennu’s composition could prove useful if humanity ever needs to steer it away.
Space agencies are constantly monitoring asteroids over potential impact risks.
A recently discovered asteroid dubbed 2024 YR4, estimated to be between 40m and 100m wide, has a 1.2% chance of impacting Earth on December 22, 2032, the European Space Agency said Wednesday.
That is only considered a level-three risk on the 10-level Torino Impact Hazard Scale, the ESA said, adding that an asteroid’s chances of impact often drop after additional observations.
– Agence France-Presse