NASA's Perseverance Mars rover begins hunt for signs of past life

air-and-space Perseverance air-and-space rover has begun its hunt for evidence of ancient natural-science

The air-and-space” target=”_blank”>spacecraft< in February, has tested an array of instruments on its 7-foot robotic arm. 

NASA’S MARS PERSEVERANCE ROVER SNAPS SHOTS OF UNIQUE ROCK FORMATION IN ‘ANCIENT LAKEBED’

In a Monday release, NASA said that Perseverance had commenced its probe of Martian planet-earth, testing detectors and capturing its first science readings.

The rover will use X-rays and ultraviolet light to examine rocks in addition to zooming for “closeups” of surfaces.

PIXL, one of seven instruments aboard NASA's Perseverance Mars rover, is equipped with light diodes circling its opening to take pictures of rock targets in the dark. Using artificial intelligence, PIXL relies on the images to determine how far away it is from a target to be scanned.

PIXL, one of seven instruments aboard NASA’s Perseverance Mars rover, is equipped with light diodes circling its opening to take pictures of rock targets in the dark. Using artificial intelligence, PIXL relies on the images to determine how far away it is from a target to be scanned.
(NASA/JPL-Caltech)

The agency said that Perseverance’s PIXL (Planetary Instrument for X-ray Lithochemistry) – an X-ray instrument – had already shown “unexpectedly strong science results” during its testing, including determining the composition of Martian dust clinging to a small calibration target aboard Perseverance

“We got our best-ever composition analysis of Martian dust before it even looked at rock,” Abigail Allwood, PIXL’s principal investigator at NASA’s Jet Propulsion Laboratory, said.

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Perseverance remains in the area around Jezero Crater – NASA’s initial landing site and a crater lake billions of years ago.

Working with the SHERLOC (Scanning Habitable Environments with Raman & Luminescence for Organics and Chemicals) spectrometer – which uses an ultraviolet laser to map mineralogy and organic compounds – and its WATSON (Wide Angle Topographic Sensor for Operations and Engineering) camera, NASA scientists combined mineral maps from the three instruments. 

NASA’s Perseverance Mars rover took this close-up of a rock target nicknamed "Foux" using its WATSON camera on the end of the rover’s robotic arm. The image was taken July 11, 2021, the 139th Martian day, or sol, of the mission.

NASA’s Perseverance Mars rover took this close-up of a rock target nicknamed "Foux" using its WATSON camera on the end of the rover’s robotic arm. The image was taken July 11, 2021, the 139th Martian day, or sol, of the mission.
(NASA/JPL-Caltech/MSSS)

Early images from WATSON have already provided data from Martian rocks, according to NASA, including information regarding colors, sizes of grains and the presence of “cement” between the grains. 

Eventually, the Perseverance rover will collect and cache the rock and regolith to be returned in a joint mission with the world-regions.

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However, any geological insights discovered before then will be critical to understanding the history of the crater and “place any indication of possible life in context.”

“Mars 2020, in my view, is the best opportunity we will have in our lifetime to address that question,” said Kenneth Williford, the deputy project scientist for Perseverance.

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