Jezero crater: inside mars great river delta -where perseverance lands

Jezero crater: inside mars great river delta -where perseverance lands


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NASA is gearing up to land its Perseverance Rover in the Jezero Crater today. The area has been extensively studied by NASA and the European Space Agency's (ESA) Mars Express Orbiter,


and the hope is to find evidence of past life. NASA's rover is scheduled to land in the crater by 8.55pm GMT. WHY HAS NASA CHOSEN THE JEZERO CRATER? Experts believe the Jezero Crater


was once flooded with water - and if Earth is anything to go by, where there is water there is life. NASA said the area has been flooded, and dried out, on several occasions over Mars'


history, with water being there for billions of years. However, as the Martian climate warmed, the water dried out, and the area now matches the rest of Mars' dusty surface.


Nonetheless, scientists hope there will be traces of extinct life - likely in microbial form - which could prove that genesis is not isolated to Earth alone. Scientists know there was once


water there, more than 3.5 billion years ago, as there is evidence of water carrying clay minerals to the surrounding areas and into the 28-mile wide basin. These tracks have left a faint


mark on the surface of the Red Planet. ESA and other orbiters have already discovered limestones, volcanic minerals and other minerals such as iron oxide in the crater. These discoveries are


not a sign of life, but evidence that something natural moved them - such as flowing water. READ MORE: 'ABSOLUTELY' PROFESSOR SAYS HUMANS WILL GO TO MARS BY 2050  "After the


exhaustive five-year study of potential sites, each with its own unique characteristics and appeal, Jezero rose to the top. "Conceivably, microbial life could have lived in Jezero


during one or more of these wet times. "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."