The questionable volcano (highlighted) is located near the prominent Jezero crater on Mars
NASA/JPL/MSSS/JHUAPL/ESA/DLR/FU BERLIN/ASTER COWART
Recent observations suggest the existence of a volcanic formation at the edge of Mars’ Jezero Crater, currently under investigation by NASA’s rover. This rover might already be collecting samples from materials expelled during an ancient volcanic eruption.
Perseverance, which landed in Jezero Crater in 2021, is methodically moving toward the western edge, tracing an ancient river that is believed to have flowed between 300 million and 4 billion years ago.
The rover is gathering samples meant to be returned to Earth as part of the Mars Sample Return mission planned for the 2030s. However, this endeavor faces potential cuts proposed by the Trump administration affecting NASA’s funding.
Some of the materials in the samples were thought to be volcanic, showcasing characteristics of lava flow. Recently, James Ray from Georgia Tech in Atlanta and his team have identified a possible volcanic structure at Jezero Mons—a dormant volcano situated on the southeastern edge of Jezero.
High-resolution images from Martian orbiters have revealed fine-grained materials in the vicinity, possibly indicating ash from the volcano. The dimensions and shape of Jezero Mons—21 km wide and 2 km high—parallel those of similar volcanoes on Earth.
“The evidence for igneous volcanoes is most consistent with our observations,” states Ray, noting that magma may have originated from beneath the surface. “This is the strongest case we can make without physically visiting the site.”
By analyzing the craters near the volcano, Ray and his colleagues estimate that Jezero Mons may have last erupted around a billion years ago.
This finding suggests that the rover might have collected volcanic samples. If they can be returned to Earth, scientists would be able to accurately date volcanic activity on another planet for the first time.
“Knowing when that volcano was active is incredibly exciting,” exclaimed Briony Hogan from Purdue University in Indiana, a member of the rover’s science team. This information could significantly enhance our understanding of “how the interiors of planets evolve over time,” she adds.
Ideally, Ray mentions that he hopes to direct Perseverance to the volcano itself, but acknowledges this may not be feasible. “There are really fascinating ancient rocks to the west of the crater, so they’re likely driving in the opposite direction,” he explains. “I can’t blame them.”
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Source: www.newscientist.com