Is there life out there?

We do not know how life started on Earth so we do not know how likely there will be life on another planet.  This is one of the greatest questions of all and scientists and Jo Public alike want to know the answer.

When early Greek and Arabic astrologers studied outer space, some believed beyond Earth was the realms of the Gods, whereas others (like Ptolemy and Galileo) felt the universe had an abundance of life.  Epicurus was adamant there was an entire civilisation within our reach.

The current discussion begins with a look at what is life and where it (may have) began?

When a meteorite from Mars was found on Antarctica in 1979 which contained trapped gas it gave us a one-to-one match of the atmosphere of Mars.  The martian rock contained things within it which was deposited from water and that water contained organic matter.  This organic matter was assessed to be indigenous to the rock which had similarities to the beginning of life as seen on Earth.  Another rock was found to have contained a fossil although some argued this was contaminated when it landed on Earth; thus not seen as extraordinary.

Pillinger’s Beagle 2 project was set up to collect a piece of rock from Mars, conceal it and bring it back to detect residues that would have the remnants of organisms that once lived there (or are still living there); unfortunately we all know what happened to Beagle 2.

There probably are other planets out there teeming with life, some perhaps more advanced than us (or less depending on how you measure this).  If we do find life on Mars, was it a meteorite from Mars hitting Earth that spurred life here or was it just a natural evolution of our planet in relation to the Sun and the wider universe?

Just like Darwin who went to a different part of the planet and compared and contrasted two life islands, we need to directly compare and contrast elements from two different planets.

If there was life out there and they were looking at us, what would they see?

If an alien was out there looking at us from 50million light years away they would first be drawn to the sun and see they as an ordinary bright star.  The Earth would be a “pale blue dot” and the aliens would see the pale blue dot as different shades depending on the angle of the Atlantic or Pacific oceans and infer a lot by the climate and we will be doing that in twenty years’ time to other planets.

The Kepler spacecraft will use techniques that look for transits, the idea here that when a planet moves in front of a star, the star will dim slightly.  If an Earth-like planet moved in front of a Sun like star, the star would dim by 1 part in 10,000.  We assess the Kepler spacecraft will find many planets no bigger than our Earth.

Analysing outer space is tricky and expensive.  Some would argue we are at the end of our great space explorations but astronomer will believe that because we know very well how our Sun is going to evolve.  Our sun is less than half way through its life (it has been shining for four and a half billion years) and it will shine for another billion years before it flairs up and engulfs the planets.  The universe will go on expanding forever until it goes cold and empty (ten to hundred million years) – there is a lot more future ahead of us than the past.  Any creature witnessing the death of the sun or making contact with an alien life may not be like us.  They will be as different to us as we are to a bug.  There is time for evolution on Earth in the post human era as Darwin realised that there is time ahead and there will be evolution – this may not be on a natural timescale but on a technological timescale that we will control.

Darwin has told us how simple life evolved in into our biosphere but we need to understand how life actually got started.  This will give us clues and understandings if it has happened in other solar systems or a rare fluke, and assist in finding out whether there is (and where) life is out there.