#NASA's #Perseverance #Mars rover is about to land in #JezeroCrater. Here's what we know about the place.

 By  issued by Space.com




Jezero Crater may be the proving ground in our search for Martian life.

If all goes to plan, NASA's Perseverance rover will alight at the location Thursday (Feb. 18) to start its multi-year quest to seek signs of habitability and cache particularly promising rocks for a future sample-return mission to bring to Earth's laboratories.

Picking the spot Percy will explore was an "exhaustive" process, NASA said in a statement, requiring five years of research examining 60 candidate locations. Mars sports abundant evidence of water and organic molecules, making it difficult to pick one single spot to answer the scientific questions driving the Mars 2020 mission.

But NASA determined Jezero was a good location to show how water periodically appeared and then disappeared on the Martian surface. Scientists believe Mars lost its water because the atmosphere grew too thin, but about 3.5 billion years ago, Jezero appears to have been a potentially habitable river valley.

"Scientists see evidence that water carried clay minerals from the surrounding area into the crater lake," NASA representatives wrote in a description of the site. "Conceivably, microbial life could have lived in Jezero … If so, signs of their remains might be found in lakebed or shoreline sediments. Scientists will study how the region formed and evolved, seek signs of past life, and collect samples of Mars rock and soil that might preserve these signs."

When NASA selected Jezero in 2018, scientists said a delta is typically an ideal spot to search for signs of ancient life, which would likely be microbial.

Long ago, Jezero contained a deep lake about the size of Lake Tahoe. The mission plan calls for Perseverance to land at the rim of the crater. The rover will wander over to the delta to examine the sediments, before examining the ancient shoreline and finally checking out some of the rocks at the rim of the crater.

"These rocks would have been hot shortly after the impact and may have hosted hot springs," scientist Ken Farley, of NASA's Jet Propulsion Laboratory, said in a December 2018 flyover video based on imagery collected by Mars orbiters. "Deposits from these springs would be another target in our search for possible ancient life on Mars."

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