Litcius/Paper detail

A Subsurface Magma Ocean on Io: Exploring the Steady State of Partially Molten Planetary Bodies

Yoshinori Miyazaki, D. J. Stevenson

2022The Planetary Science Journal18 citationsDOIOpen Access PDF

Abstract

Abstract Intense tidal heating within Io produces active volcanism on the surface, and its internal structure has long been a subject of debate. A recent reanalysis of the Galileo magnetometer data suggested the presence of a high-melt-fraction layer with >50 km thickness in the subsurface region of Io. Whether this layer is a “magmatic sponge” with interconnected solid or a rheologically liquid “magma ocean” would alter the distribution of tidal heating and would also influence the interpretation of various observations. To this end, we explore the steady state of a magmatic sponge and estimate the amount of internal heating necessary to sustain such a layer with a high degree of melting. Our results show that the rate of tidal dissipation within Io is insufficient to sustain a partial-melt layer of ϕ > 0.2 for a wide range of parameters, suggesting that such a layer would swiftly separate into two phases. Unless melt and/or solid viscosities are at the higher end of the estimated range, a magmatic sponge would be unstable, and thus a high-melt-fraction layer suggested in Khurana et al. is likely to be a subsurface magma ocean.

Topics & Concepts

MagmaAstrobiologyGeologyMagma chamberGeophysicsPetrologyVolcanoPhysicsGeochemistryHigh-pressure geophysics and materialsGeological and Geochemical Analysis
A Subsurface Magma Ocean on Io: Exploring the Steady State of Partially Molten Planetary Bodies | Litcius