Mars Exploration News  
Methane Found In Desert Soils Bolsters Theories That Life Could Exist On Mars

Satellite image of Meridiani craters showing apparent signs of methane seepage.

Los Angeles CA (SPX) Nov 01, 2005
Evidence of methane-producing organisms can be found in inhospitable soil environments much like those found on the surface of Mars, according to experiments undertaken by scientists and students from the Keck School of Medicine of the University of Southern California and the University of Arkansas and published online in the journal Icarus.

These results, they say, provide ample impetus for similar "biodetection experiments" to be considered for future missions to Mars.

"Methane-producing organisms are the ones most likely to be found on Mars," notes Joseph Miller, Ph.D., associate professor of cell and neurobiology at the Keck School and one of the study's lead researchers. "And, in fact, methane was detected on Mars last year."

Methane is considered to be a biological signature for certain living organisms that metabolize organic matter under conditions of low or no oxygen. Terrestrial methanogens (methane-producers) are typically found in environments largely protected from atmospheric oxygen, such as peat bogs, oceanic methane ices and anoxic levels of the ocean. But they had not previously been detected in an arid desert environment.

To see if methane could be found in Mars-like soil, the investigators collected soil and vapor samples from the arid environment of the Mars Desert Research Station in Utah, and then compared them with vapor samples taken from the Idaho High Desert and soil samples from Death Valley, the Arctic and the Atacama desert in Chile.

Three of five vapor samples from the Utah site showed the presence of methane; there was no methane found in any of the vapor samples from Idaho. Similarly, while five of 40 soil samples from Utah produced methane after the addition of growth medium to the samples-indicating that the methane was being given off by a biological organism, most likely a bacterium-none of the other soil samples showed signs of methane production.

Finding methane in the Utah desert is no guarantee that methane-producers exist on Mars, admits Miller, who has previously analyzed data from the Viking Lander missions and found that soil samples taken in the 1970s from the Martian surface exhibited a circadian rhythm in what appeared to be nutrient metabolism, much like that present in terrestrial microbes.

However, Miller says, this recent experiment does provide "proof of principle [in that] it improves the case that such bacteria can and might exist on the Martian surface." And that, he adds, surely warrants further investigation during future missions to Mars.

In conclusion, the researchers write, "The detection of methane, apparently of biological origin, in terrestrial desert regolith bodes well for future biodetection experiments in at least partially analogous Martian environments."

Community
Email This Article
Comment On This Article

Related Links
University of Southern California
Keck School of Medicine
SpaceDaily
Search SpaceDaily
Subscribe To SpaceDaily Express
Mars News and Information at MarsDaily.com
Lunar Dreams and more



Memory Foam Mattress Review
Newsletters :: SpaceDaily :: SpaceWar :: TerraDaily :: Energy Daily
XML Feeds :: Space News :: Earth News :: War News :: Solar Energy News


Spirit Heading To 'Home Plate'
Pasadena CA (JPL) Jan 09, 2006
Last week Spirit completed robotic-arm work on "El Dorado." The rover used all three of its spectrometers plus the microscopic imager for readings over the New Year's weekend.









  • NASA plans to send new robot to Jupiter
  • Los Alamos Hopes To Lead New Era Of Nuclear Space Tranportion With Jovian Mission
  • Boeing Selects Leader for Nuclear Space Systems Program
  • Boeing-Led Team to Study Nuclear-Powered Space Systems

  • Energia To Build Site For Moon Flights - Corporation President
  • NASA Internet Software Zooms To Moon Images In 3-D
  • NASA'S Hubble Looks For Possible Moon Resources
  • Ball State Students Developing Model Of Edible Lunar Vehicle

  • Russia, China Could Create Spacecraft To Explore Mars, The Moon
  • Energiya Corporation Suggests Using New Kliper Spaceship
  • GAO: NASA Still Has Accounting Problems
  • Russian Government Approves 2006-2015 Federal Space Program

  • NASA Says Pluto May Have Three Moons Instead Of One
  • Hubble Spots Possible New Moons Around Pluto
  • New Horizons Pluto Payload Ready For Flight, Exciting Science Campaign
  • The PI's Perspective: Changes in Latitude

  • Computer Simulation Suggests Mechanisms The Drive Jovian Jet Streams
  • The Lure Of Europa
  • NASA Selects New Frontiers Mission Concept Study
  • Icy Jupiter Moon Throws A Curve Ball At Formation Theories



  • Titan Weather: Cloudy Every 15 Years
  • Titan: A Moon With Atmosphere - Part I
  • Cassini Finds Prometheus A Sculptor Of Saturn'S Rings
  • Cassini's October 28 Titan Flyby

  • In-flight Demonstration Of Innovative Combined Antenna/Solar Array
  • Liquidmetal: Redefining Metals For The 21st Century
  • KVH Unveils World's Smallest Stabilized Marine Satellite TV System
  • An Odd List Of Body Parts

  • The content herein, unless otherwise known to be public domain, are Copyright 1995-2006 - SpaceDaily.AFP and UPI Wire Stories are copyright Agence France-Presse and United Press International. ESA PortalReports are copyright European Space Agency. All NASA sourced material is public domain. Additionalcopyrights may apply in whole or part to other bona fide parties. Advertising does not imply endorsement,agreement or approval of any opinions, statements or information provided by SpaceDaily on any Web page published or hosted by SpaceDaily. Privacy Statement