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Titan’s bright spot revealed by Cassini

The mysterious area, 400-km wide, could be methane fog or rain, carbon dioxide ice but is probably not a volcanic hot spot

The unusual bright red spot on Titan was imaged during Cassini's flyby of Titan on 16 April 2005 The unusual bright red spot on Titan was imaged during Cassini鈥檚 flyby of Titan on 16 April 2005

The Cassini spacecraft has spotted the brightest area yet on Saturn鈥檚 moon, Titan 鈥 but how it formed remains a mystery.

鈥淚t鈥檚 the brightest area on Titan in every wavelength we鈥檝e looked at,鈥 says Jason Barnes, at the Lunar and Planetary Laboratory at the University of Arizona, US.

The bright red spot is about 400 kilometres across and lies south-east of another bright area named Xanadu. But it is almost twice as bright as Xanadu. 鈥淭he question is why,鈥 says Barnes.

The reflective area could indicate a layer of methane-rich ground fog or the sheen of methane rainfall. Other observations indicate that Titan may have seas of liquid hydrocarbons and methane clouds.

The Visual and Infrared Mapping Spectrometer aboard Cassini has observed the spot over a period of nine months, and the Keck Observatory in Hawaii has observations going back over 4 years.

The persistence of the spot suggests it may not involve clouds, as these tend to break up within hours or days on Titan. However, a long-lived cloud controlled by the flow of the atmosphere across surface features, such as small mountains, might be possible. On the other hand, the spectrum of the spot does not correlate well with that of clouds.

Hovering fog

It may be a fog hovering over a lake, hot springs or volcanic region. 鈥淏ut if it鈥檚 ground fog, it鈥檚 really persistent,鈥 Barnes told New 杏吧原创.

A bright arc in Titan鈥檚 surface, known as 鈥淭he Smile鈥, might also be responsible for the new bright spot. 鈥淭he Smile鈥 could vent some material that blows northeast and then settles on the bright region. The spot鈥檚 colour and brightness suggest that it is a relatively recent formation.

The team鈥檚 early speculation was that the area could be a volcanic hot spot. But Cassini鈥檚 instruments did not find elevated surface temperatures.

Another possible explanation is that the spot is made of highly reflective frozen carbon dioxide. However, Cassini does not have the capability to confirm this.

NASA鈥檚 Monika Kress and Chris McKay predicted in 2004 that there should be a lot of carbon dioxide on Titan, given a predicted bombardment by carbon-dioxide-rich comets early in the moon鈥檚 existence.

Journal reference: Science (vol 310, p 92)

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