February 17, 2009
Alien Life May Exist On Earth
A major science conference has heard that alien life may be thriving right here on Earth, BBC News reported.
According to Professor Paul Davies, a physicist at Arizona State University, our planet may harbor forms of "weird life" unrelated to life as we know it.
Scientists are being called on by him to launch a "mission to Earth," by trawling hostile environments for signs of bio-activity.
He told the American Association for the Advancement of Science (AAAS) meeting in Chicago that weird life might even be among us, yet we do not even recognize it.
"We don't have to go to other planets to find weird life.
"It could be right in front of our noses - or even in our noses," said the physicist.
"It is entirely reasonable to expect we will find a shadow biosphere here on Earth.
"But nobody has actually taken the trouble to look.
"The question is why? The cost is not expensive - it would be a fraction of the money we spend searching for extraterrestrial life."
Davies was one of the speakers at a symposium exploring the possibility that life has evolved on Earth more than once.
The "second genesis" descendants might have survived until today in a "shadow biosphere," which is beyond our radar because its inhabitants have biochemistry so different from our own.
"All our microscopes are customized for life as we know it, so it's no surprise that we haven't found microbes with different biochemistry," said Professor Davies.
"We don't quite know how weird life would look. It's as wide as the imagination and that's why it's really hard to look for."
If weird life exists, it could be based on DNA and RNA, but with a slightly different genetic code or different amino acid.
Also, we could find creatures which have more drastic differences.
"Maybe one of the elements life uses - carbon, hydrogen, oxygen, nitrogen, phosphorus - could be replaced by something else," said Professor Davies.
"When I say that, everyone immediately thinks of silicon life, because of Star Trek. But I'm not talking about anything that drastic.
"For example, most of the jobs that can be done by phosphorus can be done by arsenic."
He said that arsenic might be poisonous to humans, but has chemical properties which might make it idea in a microbe's machinery.
Davies said that there are different ways to go about searching for something that no one has ever seen before.
"There are two possibilities," said Prof Davies, Director of the BEYOND Center for Fundamental Concepts in Science.
"One is that weird life is ecologically isolated, in niches beyond the reach of mankind."
In this scenario, we would begin sifting through the world's most inhospitable environments, deserts, salt lakes, and areas of high pressure, temperature or UV radiation.
"We could have a 'mission to Earth'. There's a big long list of places we could be looking," observed Professor Davies.
"For example, if we are looking for arsenic life, we could head for environments which are both arsenic rich and phosphorus poor, such as deep ocean vents.
"There is also a heavily contaminated lake in California which is arsenic rich - Mono Lake - and we do find microbes in there which get their energy from arsenic.
"But they don't actually incorporate the arsenic into themselves. They spit it back out again. They smoke but they don't inhale."
Another possibility is that "weird life" actually intermingles with carbon based life and is all around us.
"In that case it's going to be really hard to detect - you have to find some way of filtering everything else out."
The process has been to filter everything else away in order to find unknown organisms in seawater.
According to Davies, if we do discover something unprecedented, "we would all start arguing."
"The question would be whether this life was truly different, or whether there was a common precursor a deep branch on the main tree of life.
"Also, how do we know we are dealing with separate Earth genesis and not a Mars genesis?
"We know rocks do get traded between the two planets, and life could hitch a ride.
"Personally, I'm only interested in establishing whether life happened more than once. If we find it has happened twice from scratch then it is going to have happened all around the universe.
"It's going to be teeming with life and there's a very good chance we are not alone."
The alternative way to determine what life might look like is to try to invent it ourselves.
According to Steven Benner, of the University of Florida, if we could create new molecules that might behave in a life-like way, we can then go out and look for these in the environment.
His team is the closest so far to creating a man-made alternative form of life.
"We are announcing the first example of an artificial synthetic chemical system capable of Darwinian evolution," he told the conference.
"Is it alive? Well, I can tell you that it is not self-sustaining.
"You have to have a graduate student stand there and feed it from time to time, but it is evolving."
Essentially, the molecule is a modified version of our own DNA double helix, but with six "letters" in its genetic alphabet instead of four.
Also, the nucleotides are paired up in strands with the help of polymerase enzymes and heat.
"Sometimes mistakes are made in pairing and these mistakes are maintained in the next generation - it is evolving," said Benner.
"The next step is to apply natural selection to it, to see if it can evolve under selective pressure.
"The accepted definition of life is a molecule capable of Darwinian evolution, so we are trying to put together molecules that are capable of doing it."
However, he did question our definition of "living," by saying it is perhaps too "Earth-centric."
"Remember - just because you are a chemical system which is self-sustaining and capable of Darwinian evolution, that doesn't mean that is the universal definition of life," he said.
Image Caption: Mono Lake in the US is home to arsenic-fuelled microbes. NASA
On the Net:
- Arizona State University
- American Association for the Advancement of Science
- BEYOND Center for Fundamental Concepts in Science
- University of Florida