A Martian meteorite, an incredibly rare object, has been given to science to help unravel the Red Planet's secrets.
The Natural History Museum in London has acquired a 1kg piece of the Tissint rock thanks to an anonymous benefactor.
It was seen to land in Morocco last July and retrieved quickly, resulting in minimal contamination with Earth.
Researchers hope Tissint's geochemistry will provide insights into past conditions on Mars and the possibility that it may once have hosted life.
Just 61 out of the 41,000 meteorites known to science come from Mars. To get here, they would have been blasted off the surface of the Red Planet by a mighty impact and then travelled through the Solar System before crashing to Earth.
There have only been four other witnessed Martian meteorite falls, the last one in Nigeria in 1962.
"This meteorite is the most important meteorite to have landed on Planet Earth in the last 100 years," explained Dr Caroline Smith, meteorite curator at the NHM. "Tissint fell in a dry area, and was picked up soon after it fell and has absolutely minimal contamination. It is as if it has just been blasted off Mars. It is effectively a pristine sample of Mars."
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End Quote Prof Andrew Coates UCL MSSL Prospects for lifeIt's a history lesson on what Mars' atmosphere was like years ago?
Museum staff will use computed tomography (CT) scans to look at the internal structure of the rock, and perform tests to determine its chemistry.
Researchers will look for minerals formed in the presence of water, and for any signs of organics - carbon-rich molecules.
Energy, water, a source of carbon are the prerequisites for life as we know it. Finding evidence for any of these phenomena in Tissint tells scientists something about how habitable Mars might have been in the past.
"It's a messenger from Mars," said Prof Andrew Coates from the UCL Mullard Space Science Laboratory. "It allows you to look back at the history of Mars and its formation. It's a history lesson on what Mars' atmosphere was like years ago - could there ever have been the right conditions for life?"
This meteorite also contains a lot of glassy material called maskelynite, formed through the force of impact, most probably the blast that ripped it from the surface of Mars.
Scientists will analyse the gas trapped in bubbles in the glass to discern more about the Martian atmosphere.
Indeed, this is how meteorites like Tissint can be tied to the Red Planet - the gases held in the rocks contain types and abundances of atoms that are very similar to the atmosphere sampled by robots on Mars today.
Collectively, the class is known as the SNC group of meteorites, named after three representative members: Shergotty, Nakhla, and Chassigny.
"Looking at similar Mars samples, the ejection date of this sample could range from about 600,000 years ago up to about 17 million years ago," said Dr Smith. "The meteorite may well help us get a better understanding of the possibilities of whether life existed on Mars in the past. Every clue we can get from the meteorite will hopefully help our understanding."
'Works of God'Science would dearly love to retrieve fresh samples of Martian rock for study in Earth labs. The scale and breadth of the analytical techniques that are available in the best-equipped facilities dwarf those which can be deployed on a rover, even a huge (900kg) vehicle like the Curiosity robot just despatched to the Red Planet by the US space Agency (Nasa).
But a Mars sample return mission is technically very challenging and would probably cost billions of pounds.
The NHM acquisition has been made possible through the generous support of a private donor.
The donor commented: "My family and I are delighted to partner with the Museum in such an important acquisition. We all now set off on an exciting voyage of discovery. Man may not set foot on Mars in the near future, but Mars has come to us.
"This close-up view will bring new scientific understanding, to spur our children on to further exploration on the surface of the planet itself."
The rock first came into the possession of Darryl Pitt of the Macovich Collection in New York City. He had heard rumours of its existence over a period of weeks following the observed fall to Earth and had set out to track down its whereabouts. With every lead turning into a dead end, he nearly gave up until he received a helpful phone call.
Mr Pitt offered it to the NHM with the anonymous benefactor funding the purchase.
"It is both humbling and an honour to be part of this meteorite' s journey, and the Natural History Museum is the perfect final residence," Mr Pitt said.
It is not known how much the meteorite cost, although James Stourton, who has sold meteorites at the auction house Sotheby's in the past, said: "We mostly sell the works of man rather than the works of God. Meteorites are a new area for us and we tend to sell them between ?10,000 and ?20,000. But if you have something like the Moon rock we sold in 1993, that went for a quarter of a million pounds. So there is a big interest out there for this kind of thing."
Source: http://www.bbc.co.uk/go/rss/int/news/-/news/science-environment-16943200
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