A Hidden Ocean on Ganymede

The largest moon in the solar system, Ganymede joins two of Jupiter's other satellites, Callisto and Europa, in (most likely) possessing a subsurface ocean. In case of Europa, the liquid ocean might lie beneath an Arctic-like icepack with a thickness perhaps only a few km or less. For Ganymede the several-km-deep ocean is thought to reside at a depth of 170 km or so.

At last week's meeting of the American Geophysical Union (AGU) in San Francisco several researchers associated with the Galileo spacecraft summarized the evidence---visual, infrared, and magnetic—for the ocean. James Head of Brown University displayed sharp photographs (resolution as good s 28 m) of the much furrowed surface of Ganymede. The furrows and the many lanes of smooth, bright material running between darker areas (a banding pattern not unlike that found on Europa) suggests not volcanism but the kind of deformations that could be caused by brittle, cold, upper ice layers being fractured by contact with warmer, more ductile, lower ice in contact with liquid water. (The water would be kept liquid by the warmth of radioactivity and also by the heat generated from the gravitational flexing of the whole moon during its travels near Jupiter.)

Infrared data, reported by Thomas McCord of the University of Hawaii, indicates the presence of the salt minerals (in this case, MgSO⁴) needed for making any worldwide water stratum into an electrically conducting circuit. As Ganymede sweeps through Jupiter's potent magnetic field a current could be induced in the saltwater ocean which would modulate Ganymede's own permanent magnetic field. Margaret Kivelson of UCLA reported magnetometer measurements which could best be interpreted as exactly the kind of magnetic moderation one would expect if a deep salt ocean were present (see website).