Astronaut Worms Return from Space

After 6 months in orbit, Caenorhabditis elegans return to Earth—alive and well.

By | December 1, 2011

WIKIMEDIA COMMONS, NASA / IMAX

It was the longest successful space flight yet for the worms: six months in low Earth orbit (160–2,000 kilometers, or 100–1,240 miles above the Earth's surface) being fed and cared for entirely by a remotely-operated, automated culture system.

The system, which could allow this common laboratory model to participate in many future far-reaching and unmanned space adventures, automatically transferred some of the animals to fresh liquid culture media each month. The system also filmed the worm’s swimming behavior throughout the journey, meaning the scientists could collect data even if the worms never returned. "Because we had the bad experience with shuttle STS-107, which of course is the shuttle that broke up, we are keen [to] avoid being dependent on getting the worms back," Nathaniel Szewczyk from the University of Nottingham told BBC News.

The results from the current space flight, published earlier this month in the Journal of the Royal Society Interface, demonstrated that the worms could develop from egg to adulthood, and even bear offspring, and did so at a rate comparable to Earth-bound worms. In their 6 month mission, the worms lived for 12 generations. They displayed normal swimming behavior when fully fed, and acted similarly to Earth-bound worms when starved.

“These observations establish C. elegans as a biological model that can be used to detect changes in animal growth, development, reproduction and behaviour in response to environmental conditions during long-duration spaceflight,” the authors wrote. “This experimental system is ready to be incorporated on future, unmanned interplanetary missions and could be used to study cost-effectively the effects of such missions on these biological processes.”

Advertisement
The Scientist
The Scientist

Add a Comment

Avatar of: You

You

Processing...
Processing...

Sign In with your LabX Media Group Passport to leave a comment

Not a member? Register Now!

LabX Media Group Passport Logo

Comments

Avatar of: jkhirsh

jkhirsh

Posts: 6

December 3, 2011

It would be more useful to have a vertebrate model, as the effects of long term zero gravity on bone and muscle are more relevant to human physiology.

Avatar of:

Posts: 0

December 3, 2011

It would be more useful to have a vertebrate model, as the effects of long term zero gravity on bone and muscle are more relevant to human physiology.

Avatar of:

Posts: 0

December 3, 2011

It would be more useful to have a vertebrate model, as the effects of long term zero gravity on bone and muscle are more relevant to human physiology.

Follow The Scientist

icon-facebook icon-linkedin icon-twitter icon-vimeo icon-youtube
Advertisement
Panasonic
Panasonic

Stay Connected with The Scientist

  • icon-facebook The Scientist Magazine
  • icon-facebook The Scientist Careers
  • icon-facebook Neuroscience Research Techniques
  • icon-facebook Genetic Research Techniques
  • icon-facebook Cell Culture Techniques
  • icon-facebook Microbiology and Immunology
  • icon-facebook Cancer Research and Technology
  • icon-facebook Stem Cell and Regenerative Science
Advertisement
The Scientist
The Scientist
Advertisement
Life Technologies