Friday, August 26, 2022

Perseverance rover reveals rocks on Mars were repeatedly exposed to liquid water


SOURCE: © NASA/JPL-CALTECH

BY JAMIE DURRANI
26 AUGUST 2022

Nasa’s Perseverance rover has uncovered new details of the geochemistry of the Jezero crater on Mars. A series of articles published in Science and Science Advances explain how data collected by the rover’s on-board instruments offer insights into the volcanic history of the red planet.

Perseverance landed on Mars in February last year and has spent the last year and a half exploring the Jezero crater – a feature about 28 miles across, which is believed to have once been flooded with liquid water. A suite of on-board instruments including an x-ray spectrometer, a visual–infrared spectrometer, a Raman and fluorescence spectrometer and an x-ray fluorescence spectrometer, have been used to analyse rock samples collected during the first 3km stretch of Perseverance’s journey.


Source: © Science/AAAS
Orbital images of the Jezero crater where Perseverance drilled 15 metres below the surface of the red planet


The new research provides information on the chemical make-up of rocks reaching down to a depth of 15 metres below the surface of the crater floor. The material is mainly made of an igneous mineral called olivine, and is layered by density and composition. The igneous composition of the rock reveals its volcanic origins, while the layering suggests that the material was repeatedly exposed to liquid water.

The lowest exposed geologic feature in the crater, known as the Séítah formation, was found to be predominantly composed of coarse crystalline olivine, while iron and magnesium carbonates detected in the material indicate reactions with carbon dioxide-rich water. The rocks also contain sulfates and perchlorates, which researchers believe were introduced later by evaporation of salt-rich water.

Samples of the rock have been stored on the rover in the hope that they may be brought back to Earth for closer inspection by a future Mars mission in the 2030s.

References

KA Farley et al, Science, 2022, DOI: 10.1126/science.abo2196

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