LOS ANGELES - Saturn's rings may be vintage jewelry as old as the solar system, and they're practically sparkling with water ice, according to data from NASA's Cassini spacecraft.

The findings, released this week in the Astrophysical Journal, give planetary scientists a window into the solar system's birth and development, and show that the formation of at least one of the planet's 62 known moons may have been a little more complicated than thought.

Launched in 1997, Cassini is still turning up remarkable information about the ringed gas giant.

Data from the spacecraft's visual and infrared mapping systems have revealed how water ice and shades of color are spread through Saturn's system. Finding an abundance of water ice - too much to have been deposited by icy comets ramming into the planet or its moons - the team of Italian and American scientists realized that the ice must hail from around when the solar system first formed, more than 4 billion years ago.

The colors Cassini mapped allowed the researchers to trace local interactions in the planet's system. In Saturn's inner neighborhood, the geyser moon Enceladus whitewashes the nearby moons with fine particles from its plumes. Around the outskirts, far-off moon Phoebe stains its nearby peers like Iapetus and Hyperion with reddish dust.

Meteoroids also seem to be staining parts of the main ring system red.

The researchers came across one big surprise: Prometheus, Saturn's long, potato-shaped moon, shares a reddish hue with some nearby ring particles - even though the surrounding moons are all white-toned. Perhaps Prometheus was created from the ring particles, the scientists said.

Astronomers generally believe that Saturn's rings formed from the smashed-up remains of larger bodies. But it now seems that moon creation and destruction could be a two-way street.


The University of Arizona played a larger role in NASA's $3.4 billion Cassini-Huygens mission than any other university in the world, UA officials have said.

More than two dozen UA researchers worked on the mission, with a number of people at the UA's Lunar and Planetary Lab playing key roles, especially in imaging, mass spectrometry and the surface science package on the Huygens probe.

Source: Star archives