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If alien life does live in the warm, hydrothermal oceans of such icy moons as Europa or Enceladus, we’re now a step closer to being able to identify it with accuracy

If alien life does live in the warm, hydrothermal oceans of such icy moons as Europa or Enceladus, we’re now a step closer to being able to identify it with accuracy.

Amino acids are the building blocks of life and so could be a key signature of the existence of alien life on other planets.

However, the protein-building chemicals can also form through natural geological processes — such as, for example, those that formed the solar system.

Researchers from the US have now ruled this out as a possible source for any amino acids that could be found in the icy moons of our solar system.

They found that amino acids almost entirely decompose quickly compared to the age of the solar system.

This means that any amino acids found on Europa of Enceladus today must be the product of either other, recent, geological processes or california hemp cream alien lifeforms.

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If alien life does live in the warm, hydrothermal oceans of such icy moons as Europa (pictured)  or Enceladus, we're now a step closer to being able to identify it with accuracy

If alien life does live in the warm, hydrothermal oceans of such icy moons as Europa (pictured)  or Enceladus, we're now a step closer to being able to identify it with accuracy

If alien life does live in the warm, hydrothermal oceans of such icy moons as Europa (pictured)  or Enceladus, we’re now a step closer to being able to identify it with accuracy

‘Amino acids are the building blocks of protein, and the chemistry of life as we know it,’ geoscientist Ngoc Truong of New York’s Cornell University told .

Because of this, amino acids are key signatures in the hunt for extra-terrestrial life, such as on the icy moons of Jupiter’s Europa and Saturn’s Enceladus.

However, they can also be formed through a variety of geological processes  including those that first made the solar system.

‘I wanted to see if amino acids can be found coming from the ocean of Europa, could they be the relics of primordial synthesis processes?’ said Mr Truong.

Mr Truong teamed up with colleagues from Cornell University, Arizona State University and the Southwest Research Institute to measure how long 14 amino acids that can be used to create proteins can last in water before decomposing.

They found that in the warm, hydrothermal oceans of icy moons, certain amino acids would decay relatively quickly in comparison with the age of the solar system.

In particular, aspartic acid and threonine would only remain in such oceans in concentrations of above one nanomolar if these amino acids were synthesised in the last billion years.

Given this, Mr Truong and colleagues conclude, any of these amino acids detected on moons like Europa and Enceladus would have to have been produced relatively ‘recently’, at least when viewed in the context of the solar system’s overall history. 

This would eliminate the possibility that these chemicals could be remnants of the solar system’s formation 4.6 billion years ago.

However, detecting these amino acids on Europa or Enceladus would not be conclusive proof of life on the moons.

It would still need to be shown that any such chemical signatures found have not been produced instead by geological processes, such as through the interaction between water and minerals.

NASA's Europa Clipper spacecraft will be equipped with two mass spectrometer instruments to enable it to look for signs of amino acids in the plumes of water that the Jovian moon periodically ejects from its oceans (pictured, in an artist's impression)

NASA's Europa Clipper spacecraft will be equipped with two mass spectrometer instruments to enable it to look for signs of amino acids in the plumes of water that the Jovian moon periodically ejects from its oceans (pictured, in an artist's impression)

NASA’s Europa Clipper spacecraft will be equipped with two mass spectrometer instruments to enable it to look for signs of amino acids in the plumes of water that the Jovian moon periodically ejects from its oceans (pictured, in an artist’s impression)

<div class="art-ins mol-factbox sciencetech" data-version="2" id="mol-85ea1140-756f-11e9-9569-e99f8924f225" website tests for amino acids may reveal alien life on icy moons

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