LONDON (Reuters) - Saturn’s icy moon Enceladus could contain watery underground caverns, forming a potential home for alien life, scientists said on Wednesday.
German researchers have found salt -- a signature chemical for seawater -- in ice grains from vapor jets streaming out of surface cracks, providing the strongest evidence yet of a liquid water reservoir beneath the moon’s frozen crust.
A U.S. team said the amount of salt they had detected using a different method suggested an earlier theory that water was boiling explosively into the vacuum of space via geysers was wrong, and evaporation was occurring quite slowly.
Both studies were published in the journal Nature.
One explanation for the slower evaporation may be that water is emerging from pressurized chambers below the so-called tiger stripe fractures in the moon’s surface, said John Spencer of the Southwest Research Institute in Boulder, Colorado.
“Our picture of its sub-surface must now be expanded to include the possibility of misty ice caverns floored with pools and channels of salty water, lurking beneath the tiger stripes,” he wrote in a commentary on the two scientific papers.
“What else may lurk in those salty pools, if they exist, remains to be seen.”
The Cassini spacecraft first discovered huge plumes erupting from fissures near the south pole of Enceladus in 2005, sparking speculation of a vast underground ocean spewing vapor through giant Yellowstone-like geysers.
Since then, scientists have debated whether this meant that Enceladus (pronounced en-SELL-ah-dus), with a diameter of only 310 miles, was hiding a reservoir of liquid water. It is one of about 60 moons of the ringed planet Saturn.
Frank Postberg of the Max Planck Institute for Nuclear Physics in Heidelberg said the presence of sodium salts was compelling evidence, indicating salty minerals were washed out from rock on Enceladus in the same way oceans absorb salt on Earth.
He and colleagues reported they had found salty grains of ice after analyzing data from Cassini’s cosmic dust detector as it flew through Saturn’s outermost ring, where Enceladus orbits.
Whether or not Enceladus harbors life remains a mystery. But the evidence of liquid water, coupled with heat near the moon’s South Pole, suggests it is possible.
“If you have this large amount of water in contact with a rocky core and you have heat, then you have very good conditions,” Postberg said in a telephone interview.
“On top of that we measured a slightly alkaline pH value, which is very good for the formation of complex organic molecules.”
Scientists hope to find out more when Cassini makes two more close fly-bys of Enceladus in November.
Editing by Elizabeth Fullerton