Could the methane we’ve detected on Enceladus be signs of life? NASA/JPL-Caltech/Space Science Institute
Microbes that produce methane may already be living on Enceladus, a moon of Saturn which is tipped to host life because it boasts a liquid water ocean beneath a crust of solid ice, and strange atmospheric plumes of water. That鈥檚 the implication of research showing that an earthbound organism which also produces methane can happily survive in conditions known to exist on Enceladus, from observations by the Cassini space probe before its mission ended last year.
Isolated from deep sea vents almost 1000 metres deep in the Okinawa Trough off Japan, Methanothermococcus okinawensis was subjected to gruelling physical and chemical conditions found on Enceladus for more than five years.
This microbe, called a methanogenic archaeon, survives without oxygen by combining hydrogen and carbon dioxide 鈥 both observed in Enceladus鈥檚 atmosphere聽鈥 to make the energy it needs, emitting methane as a waste product. Cassini detected traces of methane in Enceladus鈥檚 plumes, and there鈥檚 a chance that some of it may have come from this kind of microbe.
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鈥淭he conditions we mimicked in the lab are as close as possible to those inferred from Cassini on Enceladus,鈥 says 聽at the University of Vienna in Austria,聽who led聽the investigations.
Rittmann subjected the microbe to various combinations of gases found on Enceladus, and found that it was always able to survive when provided with the moon鈥檚 levels of hydrogen and carbon dioxide. It was still able to thrive at temperatures and pressures likely found in Enceladus鈥檚 oceans, ranging respectively from 0 to 90 degrees Celsius, and up to 50 Earth atmospheres.
Life on the seafloor
Rittmann鈥檚 team also computed how much hydrogen would be produced by a breakdown of olivine minerals 鈥 which are predicted to make up the moon鈥檚 solid core 鈥 under a range of likely geological conditions on Enceladus. They found these minerals could break down chemically to produce enough hydrogen for methanogens to thrive.
The best environment for them is likely to be the seafloor. 鈥淭here, you have contact with rock and minerals, pressures of around 50 atmospheres and temperatures most likely a bit higher than 0 degrees Celsius,鈥 says Rittmann.
鈥淭his [team] has taken the first step to showing experimentally that methanogens can indeed live in the conditions expected on Enceladus,鈥 says 聽at NASA Ames Research Center in Moffett Field, California.
Rittmann says he hopes there will be future missions to Enceladus to explore further for signs of life. He says a probe fitted with a mass spectrometer would be able to detect carbon isotope ratios unique to living organisms, as well as other potential 鈥渂iomarkers鈥 of methanogens, including lipids and hydrocarbons.
鈥淚f we find life on Enceladus, it is not likely to be very Earth-like, unless the origin of these life forms is from a common source outside the solar system, which is highly unlikely,鈥 says at the Southwest Research Institute in Texas. Proof of concept on Earth is interesting, he says, but there is no substitute for finding and studying a methanogenic organism in the unique environment of Enceladus.
Nature Communications
Read more: Enceladus’s hot, gritty core may cook up ingredients for life
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