NASA persistence finds first possible hint of ancient life on Mars


This isn’t the first sign of organics on Mars – the Curiosity rover discovered organic molecules in a region called Gale Crater in 2014 (SN: 16/12/14). But scientists have struggled to identify organics since Perseverance landed in an ancient dried-up lake called Jezero Crater in 2021, says Stack Morgan (SN: 17.2.21).

Adding to the excitement, the reddish rock is speckled with tiny white dots with black edges. “They look like a three-color leopard spot,” says Stack Morgan.

Perseverance examined the stains with instruments that can identify their chemical content and discovered that the lips contain iron phosphate molecules. On Earth, rings with similar structure and chemistry are associated with ancient microbial life. The chemical reactions that create the rings can be a source of energy for the microbes.

“They don’t REQUIRING life, of course, and that’s an important caveat,” says Stack Morgan. “But based on our experience with similar things on Earth, there is a possibility that life may have been involved and these may have a biological origin.”

A panorama of an ancient river delta on Mars called Jezero Crater, where NASA's Perseverance rover (partially seen in the foreground) found a rock that may hold hints of ancient life on the Red Planet.
NASA’s Mars Perseverance rover (partially seen in the foreground) has explored an ancient river delta that once flowed into Jezero Crater, where it discovered a rock that has NASA noise. The rock lies in the area just right of center in this image, about 110 meters from the rover.MSSS/ASU/JPL-Caltech/NASA

The rock has other confusing features that cloud the picture of how it formed, says Stack Morgan. It is crossed with white veins of calcium sulfate. These veins are filled with millimeter-sized crystals of olivine, a mineral that forms from magma. The inclusion of both points and these volcanic features in the same rock is “a bit mysterious,” says Stack Morgan, as they indicate different origins. Understanding how the rock formed could help tell how likely the right conditions and temperatures were to host biology.

Planetary scientist Paul Byrne thinks we should be cautious about the discovery.

“Could this really be a biological signature? yes. And if it is, then it’s really the kind of society-changing discovery that the discovery of truly extraterrestrial life would be,” says Byrne, of Washington University in St. But it’s also possible that the stains came from something other than life, “in which case the whole thing is an interesting example of water-rock chemistry.”

The only way to find out for sure is to bring the rock home. A big part of Perseverance’s mission is to collect samples of interesting rocks for a future spacecraft to return to Earth, where they can be studied in more sophisticated laboratories than a rover can carry on its back. Persistence has thrown everything it has at this rock already, says Stack Morgan.

But funding uncertainty has recently put the program, known as Mars Sample Return, on hold (SN: 5/8/24).

“With this sample, the rationale for MSR is strengthened even more, and I should hope to motivate NASA to commit to this project sooner rather than later,” says Byrne.

Stack Morgan says the rover team is pushing ahead despite budget uncertainty.

“We have a mission to perform and a job to do: collecting compelling samples,” says Stack Morgan. “It can only be our hope that the samples we collect will be convincing enough to justify the cost of returning the sample to Mars. I think with this exciting sample, it really hits that home.”


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Image Source : www.sciencenews.org

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