Mission to discover whether there is life on Mars is made possible by experts in Milton Keynes

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A UK team led by experts at the Open University in Milton Keynes has given the green light for Mars’ moon material to be transported to Earth as part of a new space mission.

And the mission could help decide once and for all whether there has ever been life on Mars.

The OU team, led by Dr Manish Patel, a renowned expert on Mars exploration, gave the thumbs up for a new Japanese mission to bring pieces of Mars’ moon back to Earth.

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His team at The Open University, which included partners at Public Health England, spent three years analysing whether the material would provide a risk of contamination.

The moon is next to MarsThe moon is next to Mars
The moon is next to Mars

The Japanese space mission is going to Phobos, a moon next door to Mars which is likely to contain material ejected from Mars.

Their MMX Martian Moons Explorer Mission – due in the next decade – is planned to land on Phobos, to extract and then return the specimens that they find to Earth.

But space authority COSPAR said before approving the mission, they needed to be confident there was no risk of contamination in the materials brought back to Earth, which could come from organisms containing potential Mars life.

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Dr Patel’s research, funded by the European Space Agency, looked at whether unsterilised material from Mars – which might therefore contain life – could be present on Phobos.

Dr Manish PatelDr Manish Patel
Dr Manish Patel

Stringent laboratory tests were carried out to determine if micro-organisms could survive the transfer from Mars to Phobos – and therefore still be present when the Phobos extracts were brought to Earth.

Dr Patel said: “If life exists, or ever existed, on Mars, there is a possibility that material containing organisms could be present on Phobos and be collected by a sample return mission such as the Japanese Martian Moons eXplorer (MMX).”

Given the proximity of Phobos to Mars, Mars’ potential to have supported life, and the possibility of material transfer from Mars to Phobos over millions of years, careful consideration of planetary protection is required, he said.

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Dealing with “major unknowns” the OU’s lab-based team had to consider the “best-case scenario” for organism survival, considering the size of sample the MMX mission would bring back. They then measured this against the COSPAR risk-reduction requirement – a probability of less than one in a million – to see whether it would remain compliant and match up with planetary protection rules.

In the lab, the team used simulated or “artificial” samples of Mars and Phobos. They used a gun-like apparatus and a heating apparatus to “shoot and burn” these samples to replicate what would happen if they were thrown through space as a result of meteorite impact.

They also did radiation tests to simulate how material on Phobos would be exposed to radiation from space, and combined the results using theoretical models.

They determined that the transfer of life from Mars to Phobos through impact events resulted in a significant amount of unsterilised material on Phobos, but that radiation provides the most significant sterilising factor on the Phobos surface, and would destroy micro-organisms.

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Dr Patel said: “These missions are incredibly interesting to study the history of Mars, to find out key information and understand how the Mars system has evolved. For instance, we still don’t know the origin of Mars’ moons. So, this is a fantastic area of research to be involved in and will inform our own investigations too.”

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