Spacecraft to sample water plumes from Saturn's ocean-bearing moon Enceladus

The north pole of Saturn's icy moon Enceladus is seen in an image from NASA's Cassini spacecraft taken on Oct 14.
The north pole of Saturn's icy moon Enceladus is seen in an image from NASA's Cassini spacecraft taken on Oct 14. PHOTO: REUTERS

CAPE CANAVERAL, Florida (REUTERS) - A US spacecraft was poised to make a deep dive into plumes of water, ice and organic matter blasting from Saturn's small, ocean-bearing moon Enceladus, in an effort to learn if it could support life, NASA said on Wednesday.

Only a drop of water will be collected during the 30,600 kph flyby, which was scheduled to take place about 1 am Singapore time.

Scientists say that will be enough to answer some key questions about Enceladus, which has a global ocean sealed beneath its icy surface.

"This is a very big step in a new era of exploring ocean worlds in our solar system bodies with great potential to provide oases for life," said Curt Niebur, program scientist for NASA's Cassini mission at Saturn.

The spacecraft does not have instruments to directly detect life, but scientists hope to ferret out details about the underground ocean that is believed to be the source of Enceladus' geyser-like plumes. Scientists suspect tidal forces are keeping the ocean liquid.

Cassini discovered the plumes, which stretch hundreds of miles into space, in 2005, a year after reaching Saturn.

During repeat flybys of Enceladus, Saturn's sixth-largest moon and just 500 km in diameter, scientists confirmed that the moon holds a slightly salty, liquid ocean beneath its crust.

Saturn, a gaseous planet and the second-largest in the solar system, is about nine times the size of Earth and is the sixth farthest from the sun.

During Wednesday's flyby of Enceladus, which was to take place just 350 km above the moon's active southern polar region, scientists hope to make chemical measurements of the plume that will allow them to determine if the moon has hydrothermal vents on its sea floor.

Similar superhot, perpetual-night deep ocean habitats on Earth support a wide variety of life.

Cassini, which is due to end its mission in 2017, will make a final flyby of Enceladus in December.