Nasa Perseverance rover finds intriguing rocks in search for alien life
In its first year on Mars, Nasa’s Perseverancerover has discovered, sampled, and stored Martian rocks showing signs of interaction with ancient water on the Red Planet, samples that may prove the best chance of determining whether there is, or ever was, life on Mars.
Scientists now present in detail their findings stemming from the Perseverance mission in four papers published Thursday, two in the journal Science, and two in Science Advances. The collected findings discuss the rover’s exploration of Jezero crater on Mars, the site of an ancient lake and river bed, the geological structure of the region, and the rock samples the rover collected that will be returned to Earth by a separate mission.
The later mission, Nasa’s Mars Sample Return mission, will collect rover samples and return them to Earth around 2033, where terrestrial laboratories can conduct more detailed analyses impossible for Perseverance to conduct on its own.
Perseverance landed on Mars in February 2021, and as detailed in the first paper published in Science, the rover found the former lakebed of Jezero crater to be more eroded than scientists first anticipate, allowing the rover to sample deeper strata of Mars rocks than anticipated. Those rocks showed significant signs of being chemically altered by contact with water.
“We have organisms on Earth that live in very similar kinds of rocks,” University of Florida astrobiologist and one of the study authors Amy Williams said in a statement. “And the aqueous alteration of the minerals has the potential to record biosignatures.”
The Perseverance findings build on those of Nasa’s earlier Mars rover missions, such as Curiosity, which celebrated its 10th anniversary of landing on Mars on 5 August. The still active Curiosity helped establish the fact of a watery ancient past on Mars, and also confirmed the presence of organic molecules, the building blocks of life, on the Red Planet.
Perseverance is very much an intentional successor to Curiosity, designed to expand scientists’ understanding of the ancient watery phase of Mars.
The second paper published in Science looked at the nature of the rocks at the bottom of Jezero crater, and found evidence of igneous rocks — rocks formed by cooling magma — which will be especially helpful in determining a detailed timeline of the era of water on Mars.
“From a sampling perspective, this is huge,” University of California, Berkeley geochemist and study author David Shuster said in a statement. “The fact that we have evidence of aqueous alteration of igneous rocks — those are the ingredients that people are very excited about, with regard to understanding environmental conditions that could potentially have supported life at some point after these rocks were formed.”
