Icy Worlds

As Above, Not So Below: Ion Fractionation In Planetary Analog Ices

By Keith Cowing

Status Report

Science Advances via PubMed

April 25, 2026

Filed under cryobiology, geophysics, glaciology, ice, ice shell, ion fractionation, physical chemistry, Science Advances via PubMed, subsurface ocean, Water, water world

As Above, Not So Below: Ion Fractionation In Planetary Analog Ices — (A) Schematic of the ice growth apparatus. (B) Image of the ice growth apparatus shortly after the onset of an experiment. (C) The ~50-cm-thick Europa 2 ice column immediately after extraction. The column is placed upside down to reduce brine loss from the highly porous basal region of the ice. (D) Ice columns subsectioned into smaller, more easily workable pieces and scored at 2-cm intervals in preparation for vertical partitioning. (E) The scored subsections in (D) were cut using an electric band saw, and the 2-cm layers were placed into 500-ml high-density polyethylene amber Nalgene sample bottles. These samples were subsequently melted, filtered, and processed via IC, ICP-OES, and NDIR spectroscopy to acquire our ionic composition and ionic fractionation profiles. — Science Advances via PubMed

The geophysical evolution and astrobiological potential of ocean worlds are indelibly linked to the chemical compositions of their oceans and ice shells.

In the absence of direct measurements, empirical estimates of subsurface ocean compositions have relied on the assumption that the ionic compositions of ice shell surfaces are representative of their underlying ocean compositions.

Here, we present experimental results demonstrating that ion fractionation—the differential entrainment of ion species in forming ices—is likely a prevalent process on ocean worlds, suggesting that planetary ice shell compositions do not directly reflect their underlying ocean compositions.

We measure in-ice depletions and amplifications of relative ion concentrations ranging between −40 and +77%, compared to the parent fluid composition. Although this may complicate the interpretation of spacecraft data, ion fractionation provides a mechanism for generating compositionally diverse ices that could help explain the geological complexity of planetary ice shells.

As Above, Not So Below: Ion Fractionation In Planetary Analog Ices, Science Advances via PubMed (open access)
As above, not so below: Ion fractionation in planetary analog ices, Science Advances (open access)

Astrobiology, Astrogeology, Astrochemistry,

Keith Cowing

Biologist, Explorers Club Fellow, ex-NASA Space Biologist and Payload integrator, Editor of NASAWatch.com and Astrobiology.com, Lapsed climber, Explorer, Synaesthete, Former Challenger Center board member 🖖🏻

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