dimanche 28 novembre 2010

Hardy bugs could survive a million years on Mars












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November 28, 2010

It was already nicknamed "Conan the Bacterium" for its ability to withstand radiation. Now it seems Deinococcus radiodurans could, in theory, survive dormant on Mars for over a million years.

Lewis Dartnell at University College London and colleagues froze the bugs to -79 °C, the average temperature at Mars's mid-latitudes. Then they zapped them with gamma rays to simulate the dose they would receive under 30 centimetres of Martian soil over long periods of time.

Would you want to live here for a million years? (Image: NASA Mars Pathfinder view)

The team worked out that it could take 1.2 million years under these conditions to shrink a population of the bacteria to a millionth of its original size.

The "Conan Bacteria" (aka Deinococcus radiodurans)

Earlier studies suggested that the bacterium can endure four times as much radiation in the Martian cold as at room temperature. If a cell is frozen, radiation does less damage to it because the free radicals it creates are much less mobile. "Cold is good in that respect," Dartnell says. "It improves the chances of cells surviving radiation."

Antarctic bugs

Dartnell's team also isolated three new strains of bacteria from the Dry Valleys of Antarctica, where winter temperatures drop to -40 ºC.

Astrobiologist Dr Lewis Dartnell

The hardiest of the bugs, a new strain of Brevundimonas, could persist for 117,000 years on Mars before its population would be reduced by a factor of a million, the team's work suggests.

"The more we learn about Earth life, the more likely it appears that it could survive in other parts of the solar system," says Cassie Conley of NASA in Washington DC.

High vacuum

But even if terrestrial microbes could survive on Mars itself, they might not fare so well on the journey there, she cautions. To simulate spaceflight, she suggests that the experiments be repeated in a high vacuum, which can desiccate microbes. "In space, you suck off nearly all the water molecules," Conley says. This removal of water could make it more difficult for cells to repair radiation damage.

Mars seen by Hubble Space Telescope (NASA / ESA)

Conley, who makes sure NASA missions minimise the risk of contaminating other worlds with microbes, says the agency's policy on planetary protection already takes into account that some microbes are amazingly radiation resistant.

"The policy is that we won't contaminate other planets or moons, because just one colonising event could screw up our ability to study indigenous life forever," she told New Scientist.

Consider the possibility that this bacterium is present on several planets and moons in the solar system

Galileo Near Infrared Mapping Spectrometer captured a false-color image of Jupiter’s moon, Europa

Galileo’s Near Infrared Mapping Spectrometer captured a false-color image of Jupiter’s moon, Europa, revealing an unusual spectrum. Some have speculated that the discoloration is caused by something like Conan the Bacterium. A home for D. radiodurans on Europa?“.

Natural and False Color Views of Europa (NASA Galileo Mission)

Though speculative, it is conceivable that explosions of icy slush or melt-throughs ferried extremophile organisms to Europa’s surface, where they stained the ice,” wrote Kristin Leutwyler in her book, The Moons of Jupiter (Leutwyler 126.).

For more informations about the "Conan Bacteria" (aka Deinococcus radiodurans): http://chaoticutopia.com/wp/?p=254

Images, Text, Credits: Journal Astrobiology (DOI: 10.1089/ast.2009.0439) / NASA / ESA / Hazel Muir / Orbiter.ch.

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