You can freeze it, thaw it, vacuum dry it and expose it to radiation but still life survives. ESA’s research on the International Space Station is giving credibility to theories that life came from outer space – as well as helping to create better suncreams.
An example of a lichen that was exposed to space conditions on the International Space Station for 18 months. Some lichens survived the ordeal and continued to grow in the laboratory. Several trays filled with organisms were installed on the outside of the European Columbus laboratory. Further units are continuing to study the effects of outer space on organisms and organic chemicals. Credit: Creative Commons-N. McAuley
In 2008 scientists sent the suitcase-sized Expose-E experiment package to the Space Station filled with organic compounds and living organisms to test their reaction to outer space.
When astronauts venture on a spacewalk, hours are spent preparing protective suits to survive the hostile conditions. No effort was made to protect the bacteria, seeds, lichen and algae attached to the outside of the Space Station, however.
“We are exploring the limits of life,” explains ESA’s René Demets. Our atmosphere does a wonderful job of protecting life on Earth by absorbing harmful UV rays and keeping temperatures relatively stable.
Expose allows long exposures to space conditions and solar UV-radiation on the International Space Station. Several trays filled with organisms were installed on the outside of the European Columbus laboratory as one of the nine payloads of the European Technology Exposure Facility (EuTEF). Further Expose units are continuing to study the effects of outer space on organisms and organic chemicals. Credit: ESA
In contrast, the space samples endured the full power of the Sun’s rays. The samples were insulated somewhat by the Space Station but still had to cope with temperatures changing from –12ºC to +40ºC over 200 times as they orbited Earth.
The samples returned to Earth in 2009 and the results have now been published in a special issue of the Astrobiology journal.
Lichen have proven to be tough cookies – back on Earth, some species continue to grow normally. René explains, “These organisms go into a dormant state waiting for better conditions to arrive.”
Expose-E placed on the International Space Station’s European laboratory module Columbus. Expose allows long exposures to space conditions and solar-UV radiation on the International Space Station. Several trays filled with organisms were installed on the outside of the European Columbus laboratory. Credit: ESA/NASA
The lichen have attracted interest from cosmetic companies. They can survive the full power of the Sun for 18 months, so knowing more could lead to new ingredients for suncream.
Living organisms surviving in open space supports the idea of ‘panspermia’ – life spreading from one planet to another, or even between solar systems.
It seems possible that organisms could colonise planets by hitching rides on asteroids. ESA is probing this intriguing theory further on future Station missions with different samples.
Source: the European Space Agency (ESA)