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Cassini samples the icy spray of Enceladus water plumes

Date:
June 23, 2011
Source:
European Space Agency (ESA)
Summary:
The NASA/ESA/ASI Cassini-Huygens mission has directly sampled the water plumes jetting into space from Saturn’s moon Enceladus. The findings from these fly-throughs are the strongest evidence yet for the existence of large-scale saltwater reservoirs beneath the moon’s icy crust.

Recent Cassini images of Saturn's moon Enceladus backlit by the Sun show the fountain-like sources of the fine spray of material that towers over the south polar region. The image was taken looking more or less broadside at the 'tiger stripe' fractures observed in earlier Enceladus images. It shows discrete plumes of a variety of apparent sizes above the limb of the moon. This enhanced and false-coloured image shows the enormous extent of the fainter, larger-scale component of the plume.
Credit: NASA/JPL/Space Science Institute

The NASA/ESA/ASI Cassini-Huygens mission has directly sampled the water plumes jetting into space from Saturn's moon Enceladus. The findings from these fly-throughs are the strongest evidence yet for the existence of large-scale saltwater reservoirs beneath the moon's icy crust.

Enceladus' water plumes shoot water vapour and tiny grains of ice into space. They originate from the 'tiger stripe' surface fractures at the moon's south pole, and create the faint E-ring, which traces the orbit of Enceladus around Saturn.

The Cassini spacecraft discovered the plumes in 2005 and more recently has been able to fly directly through them.

During three of Cassini's passes in 2008 and 2009, the Cosmic Dust Analyser measured the composition of freshly ejected plume grains. The icy particles hit the detector target at speeds of 6.5-17.5 km/s, and vapourised instantly. Electrical fields inside the instrument then separated the various constituents of the resulting impact cloud for analysis.

Far away from Enceladus, the data show that the ejected grains are relatively small and mostly salt-poor, closely matching the composition of the E-ring. Closer to the moon, however, Cassini has found that relatively large, salt-rich ice grains dominate.

It appears as though more than 99% of the total mass of ejected solids is in salt-rich grains, but most of these are heavy and fall back to the moon, so never make it into the E-ring.

The salt-rich particles have an 'ocean-like' composition which indicates that most, if not all, of the expelled ice comes from liquid saltwater, rather than from the icy surface of the moon.

When salty water freezes slowly, the salt is squeezed out, leaving pure water ice behind. So, if the plumes were coming from the surface ice, there should be very little salt in them.

"There currently is no plausible way to produce a steady outflow of salt-rich grains from solid ice across the tiger stripes other than saltwater under Enceladus' icy surface," says Frank Postberg, Universitδt Heidelberg, Germany, who is the lead author on the paper announcing these results.

The picture the team envisages instead is that deep underneath Enceladus' surface, perhaps 80 km down, there is a layer of water between the rocky core and the icy mantle, kept liquid by tidal forces owing to Saturn and some neighbour moons, as well as by the heat generated by radioactive decay.

Salt in the rock dissolves into the water, which accumulates in liquid reservoirs beneath the icy crust. When the outermost layer cracks open, the reservoir is exposed to space. The drop in pressure causes the liquid to evaporate, with some of it flash-freezing into salty ice grains: together these create the plumes.

Roughly 200 kg of water vapour is lost every second in the plumes, with smaller amounts of ice grains. According to the team's calculations, the water reservoirs must have large evaporating surfaces, otherwise they would easily freeze over, stopping the plumes.

"Enceladus is a tiny icy moon located in a region of the outer Solar System where no liquid water was expected to exist, because of its large distance from the Sun," says Nicolas Altobelli, ESA's Project Scientist for the Cassini-Huygens mission.

"This finding is therefore a crucial new piece of evidence showing that environmental conditions favourable to the emergence of life may be sustainable on icy bodies orbiting gas giant planets."


Story Source:

The above story is based on materials provided by European Space Agency (ESA). Note: Materials may be edited for content and length.


Journal References:

  1. F. Postberg, J. Schmidt, J. Hillier, S. Kempf, R. Srama. A salt-water reservoir as the source of a compositionally stratified plume on Enceladus. Nature, 2011; DOI: 10.1038/nature10175
  2. F. Postberg, S. Kempf, J. Schmidt, N. Brilliantov, A. Beinsen, B. Abel, U. Buck, R. Srama. Sodium salts in E-ring ice grains from an ocean below the surface of Enceladus. Nature, 2009; 459 (7250): 1098 DOI: 10.1038/nature08046

Cite This Page:

European Space Agency (ESA). "Cassini samples the icy spray of Enceladus water plumes." ScienceDaily. ScienceDaily, 23 June 2011. <www.sciencedaily.com/releases/2011/06/110623085636.htm>.
European Space Agency (ESA). (2011, June 23). Cassini samples the icy spray of Enceladus water plumes. ScienceDaily. Retrieved April 23, 2014 from www.sciencedaily.com/releases/2011/06/110623085636.htm
European Space Agency (ESA). "Cassini samples the icy spray of Enceladus water plumes." ScienceDaily. www.sciencedaily.com/releases/2011/06/110623085636.htm (accessed April 23, 2014).

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