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Mars' crust more complex, evolved than previously thought: Study

Mars' crust more complex, evolved than previously thought: Study

Mars' crust more complex, evolved than previously thought: Study

A new study finds the original crust on Mars is more complex, and evolved, than previously thought.

A new study finds the original crust on Mars is more complex, and evolved, than previously thought. Researchers have determined the Martian crust has greater concentrations of the chemical element silicon, which may mean Mars' original surface may have been similar to Earth's first crust.The Martian surface is uniformly basaltic, a product of billions of years of volcanism and flowing lava on the surface that eventually cooled. Because Mars did not undergo full-scale surface remodeling like the shifting of continents on Earth, scientists had thought Mars' crustal history was a relatively simple tale. But in a new study, researchers found locations in the Red Planet's southern hemisphere with greater concentrations of silicon, a chemical element, than what would be expected in a purely basaltic setting. The silica concentration had been exposed by space rocks that slammed into Mars, excavating material that was embedded miles below the surface, and revealing a hidden past. "There is more silica in the composition that makes the rocks not basalt, but what we call more evolved in composition," says Valerie Payre, assistant professor in the Department of Earth and Environmental Sciences at the University of Iowa and the study's corresponding author. "That tells us how the crust formed on Mars is definitely more complex than what we knew. So, it's more about understanding that process, and especially what it means for how Earth's crust first formed." Scientists believe Mars formed about 4.5 billion years ago. Exactly how the Red Planet came into being is a mystery, but there are theories. One idea is that Mars formed via a titanic collision of rocks in space that, with its intense heat, spawned an entirely liquefied state, also known as a magma ocean. The magma ocean gradually cooled, the theory goes, yielding a crust, like a layer of skin, that would be singularly basaltic. Another theory is that the magma ocean was not all-encompassing, and that parts of the first crust on Mars had a different origin, one that would show silica concentrations different from basaltic. Payre and her research partners analyzed data gathered by the Mars Reconnaissance Orbiter for the planet's southern hemisphere, which previous research had indicated was the oldest region. The researchers found nine locations -- such as craters and fractures in the terrain -- that were rich in feldspar, a mineral associated with lava flows that are more silicic than basaltic. "This was the first clue," Payre says. "It is because the terrains are feldspar-rich that we explored the silica concentrations there." Adding further credence to their observations, meteorites such as Erg Chech 002, discovered in the Sahara and dating roughly to the birth of the solar system, show similar silicic and other mineral compositions that the team observed in the nine locations on Mars. The researchers also dated the crust to about 4.2 billion years, which would make it the oldest crust found on Mars to date. Payre says she was mildly surprised at the discovery. "There have been rovers on the surface that have observed rocks that were more silicic than basaltic," she says. "So, there were ideas that the crust could be more silicic. But we never knew, and we still don't know, how the early crust was formed, or how old it is, so it's kind of a mystery still." Payre conducted the research as a postdoctoral researcher at Northern Arizona University. She joined the UI in August. The study, "An evolved early crust exposed on Mars revealed through spectroscopy," was published online Nov. 4 in the journal Geophysical Research Letters. (ANI) Also Read:  Mars has dark green landscape too, discovers NASA rover Also watch:

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