Shocked zircon find a 'one-off gift' from Mars

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Curtin University researchers studying a Martian meteorite have found the first evidence of high-intensity damage caused by asteroid impact, in findings that have implications for understanding when conditions suitable for life may have existed on early Mars.

Published in leading journal Science Advances, the research examined grains of the mineral zircon in Martian meteorite NWA 7034. The meteorite, colloquially known as "Black Beauty", is a rare sample of the surface of Mars. The original 320-gram rock was found in northern Africa and first reported in 2013.

Lead author Morgan Cox, a Ph.D. candidate from Curtin's Space Science and Technology Centre (SSTC) in the School of Earth and Planetary Sciences, described the meteorite as a collection of broken rock fragments and minerals, mostly basalt, that solidified and became a rock over time. A zircon found inside the meteorite preserves evidence of damage that only occurs during large meteorite impacts.

"This grain is truly a one-off gift from the Red Planet. High-pressure shock deformation has not previously been found in any minerals from Black Beauty. This discovery of shock damage in a 4.45 billion-year-old Martian zircon provides new evidence of dynamic processes that affected the surface of early Mars," Ms Cox said.

"The type of shock damage in the Martian zircon involves 'twinning', and has been reported from all of the biggest impact sites on Earth, including the one in Mexico that killed off the dinosaurs, as well as the Moon, but not previously from Mars."

Co-author Dr. Aaron Cavosie, also from Curtin's SSTC, said the occurrence of zircon grains in the Black Beauty provided physical evidence of large impacts on early Mars, and had implications for the habitability of the young planet.

"Prior studies of zircon in Martian meteorites proposed that conditions suitable for life may have existed by 4.2 billion years ago based on the absence of definitive shock damage" Dr. Cavosie said.

"Mars remained subject to impact bombardment after this time, on the scale known to cause mass extinctions on Earth. The zircon we describe provides evidence of such impacts, and highlights the possibility that the habitability window may have occurred later than previously thought, perhaps coinciding with evidence for liquid water on Mars by 3.9 to 3.7 billion years ago."

The research team also included collaborators from The University of Western Australia and the University of Glasgow.

The research paper is titled, "Impact and habitability scenarios for early Mars revisited based on a 4.45-Ga shocked in regolith breccia".

More information: Morgan A. Cox, Impact and habitability scenarios for early Mars revisited based on a 4.45-Ga shocked zircon in regolith breccia, Science Advances (2022). DOI: 10.1126/sciadv.abl7497.

Journal information: Science Advances

Provided by Curtin University

Citation: Shocked zircon find a 'one-off gift' from Mars (2022, February 2) retrieved 2 October 2023 from
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