Sep 18, 2025 01:47 AM
https://www.eurekalert.org/news-releases/1098756
INTRO: New research using NASA’s Perseverance rover has uncovered strong evidence that Mars’ Jezero Crater experienced multiple episodes of fluid activity — each with conditions that could have supported life.
By analyzing high-resolution geochemical data from the rover, scientists have identified two dozen types of minerals, the building blocks of rocks, that help reveal a dynamic history of volcanic rocks that were altered during interactions with liquid water on Mars. The findings, published in the Journal of Geophysical Research: Planets, provide important clues for the search for ancient life and help guide Perseverance’s ongoing sampling campaign.
The study was led by Rice University graduate student Eleanor Moreland and employed the Mineral Identification by Stoichiometry (MIST) algorithm — a tool developed at Rice — to interpret data from Perseverance’s Planetary Instrument for X-ray Lithochemistry (PIXL). PIXL bombards Martian rocks with X-rays to reveal their chemical composition, offering the most detailed geochemical measurements ever collected on another planet, according to the study.
“The minerals we find in Jezero using MIST support multiple, temporally distinct episodes of fluid alteration,” Moreland said, “which indicates there were several times in Mars’ history when these particular volcanic rocks interacted with liquid water and therefore more than one time when this location hosted environments potentially suitable for life.” (MORE - details)
INTRO: New research using NASA’s Perseverance rover has uncovered strong evidence that Mars’ Jezero Crater experienced multiple episodes of fluid activity — each with conditions that could have supported life.
By analyzing high-resolution geochemical data from the rover, scientists have identified two dozen types of minerals, the building blocks of rocks, that help reveal a dynamic history of volcanic rocks that were altered during interactions with liquid water on Mars. The findings, published in the Journal of Geophysical Research: Planets, provide important clues for the search for ancient life and help guide Perseverance’s ongoing sampling campaign.
The study was led by Rice University graduate student Eleanor Moreland and employed the Mineral Identification by Stoichiometry (MIST) algorithm — a tool developed at Rice — to interpret data from Perseverance’s Planetary Instrument for X-ray Lithochemistry (PIXL). PIXL bombards Martian rocks with X-rays to reveal their chemical composition, offering the most detailed geochemical measurements ever collected on another planet, according to the study.
“The minerals we find in Jezero using MIST support multiple, temporally distinct episodes of fluid alteration,” Moreland said, “which indicates there were several times in Mars’ history when these particular volcanic rocks interacted with liquid water and therefore more than one time when this location hosted environments potentially suitable for life.” (MORE - details)