Saturn moon mystery cracked
Work at Mauna Kea traces methane to vents in the ground
HILO » Astronomers using two observatories on Mauna Kea have gained evidence that methane gas shoots out of ground cracks or volcanolike structures on Saturn's moon Titan, creating clouds and weather on the giant satellite.
Astronomers know there is a lot of methane on Titan, but sunlight should quickly destroy it.
"For a long time we've wondered why there is methane in the atmosphere of Titan at all, and the answer is that is spews out of the surface," said Michael Brown, an astronomy professor at the California Institute of Technology.
"What is tremendously exciting is we can see it from Earth; we see these big clouds coming from above these methane vents or methane volcanoes," Brown said in a CalTech statement.
Brown, astronomer Henry Roe and others used the Keck Observatory and the Gemini North Observatory during a two-year period to see the methane clouds. Their findings will be published today in the journal Science.
The astronomers used an unusual viewing schedule. An astronomy team is generally given all night for one or more nights to complete its observations.
The Roe and Brown team was given only "quick looks" of a few minutes on 82 nights over two years. They saw clouds on Titan on only 15 of those nights.
"The clouds usually popped up quickly and generally had disappeared by the next day," the CalTech statement said.
Some of the clouds were 1,200 miles long, on a moon a little less than half the diameter of Earth.
But the clouds were seen only in the middle of Titan's southern hemisphere, and most originated in one particular spot. Roe and Brown concluded they came from something on the ground, not activity in the atmosphere, which would be more generalized.
Although the Keck and Gemini telescopes have devices to smooth out the effects of ripples in Earth's atmosphere, they still cannot see how the methane escapes from the ground.
The gas might come from temporary cracks or from "cryovolcanoes," cold features powered by gas shooting water, ammonia and other liquids that quickly freeze, CalTech said.
