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Research on clay formation could have implications for how to search for life on Mars



The Wdowiak Ridge on Mars as seen by NASA's Mars Exploration Rover Opportunity. Credit: NASA / JPL-Caltech / Cornell Univ./Arizona State Univ.
    

Today Mars has only a thin atmosphere, and its surface is very dry with the possible exception of some localized and temporary water seeps. However, ancient eroded valley that was discovered by orbiting spacecraft in the early days of exploration proves that water flowed across the surface in the remote past.
                                


The branching nature of the oldest valleys, which have many tributaries, shows that the water was most likely supplied by rainfall. This means the surface was very likely habitable for life back then.

When clay minerals were detected from orbit and subsequently confirmed by surface rocks, it was taken as further evidence that Mars had a wet surface environment, hospitable to life. This is because when most rocky minerals weather away under humid conditions they rotate to form various kinds of clay.

Clay minerals can not be found in the microscopic crystalline structure. Clays are found virtually nowhere on the net planet except in Mars's most ancient terrains, dating back to an epoch about 3.7-4.1

billion years ago, called the Noachian.

Understanding these martian clays is difficult, because they can be seen only sparsely across the surface. Some of the detected clays are in bedrock that have been exposed by erosion, others have been downstream from such sources by the Noachian rivers.

Branching tributaries with ancient valleys seen in a 120km wide region of Mars. Google Earth . Credit: ESA / DLR / FU Berlin
    

On Earth, clay forms by weathering of mineral grains chemically attacked by water. Most scientists believe that a similar process took place on Mars during its wet, Noachian period. However, some researchers have suggested that most of the detected clay was not formed in this way at all. They argue that it was prior to that, while warm water was circulating through the bedrock in response to nearby volcanic and intrusive activity.

Heat and steam from the magma ocean

Now a new study by a group from Brown University, Rhode Island, published in Nature, further challenges the idea that clay on Mars formed just like that on Earth. The team has done experiments suggesting that the origin of most of Mars's clays was even earlier . They considered the likely conditions on the hot, infant Mars, 4.5 billion years ago. At that time, the primordial magma ocean that once covered the planet was still cooling, and the first crystals had floated to the surface to grow Mars's original "primary crust".

At this time, Mars very likely had a hot and steamy atmosphere, which was still degassing from inside the planet and had not yet had a chance to escape to space. Conditions would have been perfect to make chemical reactions between the atmosphere and the minerals within the warmth and porous top of the crust.

 Research on clay formation could have implications to how to search for life on Mars
Artist's impression of very early Mars, with a steamy carbon dioxide-rich atmosphere above the surface of a cooling magma ocean. Credit: David A Rothery, Author provided
    

The team suggests that such clay formation would have pervaded a layer up to 10km thick. This, they say, was subsequently buried by material spread across the surface by asteroid and by lava from volcanic eruptions. Surface traces of clay are rare today, because they depend on the buried layer having been re-exposed by later, smaller, or erosional processes that have acted locally to strip away the cover.

Not like Earth?

The evidence for flowing water in the Noachian is robust, and has not been undermined. However, if the new study is right, Mars may not have experienced a prolonged period when the surface conditions were right for clays to be made by weathering under humid, Earth-like, conditions.

The next Mars landers, NASA's Mars 2020 and ESA's ExoMars 2020, are both targeted at sites where clays have been detected. That's precisely because of these may sites where Earth-like habitable conditions formerly prevailed, and may have once hosted microbial life just like Earth.

20km wide image showing the Jezero crater, a candidate landing site for NASA's Mars 2020 mission. Areas of clay minerals appear green. Credit: NASA / JPL-Caltech / MSSS / JHU-APL
    

On the balance of probabilities, these are still good places to look for traces of ancient microbial life. The new research suggests ancient life is unlikely to be found where the clays originally formed by chemical reactions with the atmosphere – it does not rule out habitability at the sites where clays have been deposited. Yet, one link in the chain of logic may have been at least partially severed.
                                                                


Explore further:
                                        Clay minerals on Mars may have formed in primordial steam bath
                                    

Provided by:
                                                                                                            The Conversation
                                                        

                                                        
                                                                                                    


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