Cracking the mystery of nitrogen ice dynamics on Pluto

Universe

Sputnik Planitia, a basin on the surface of Pluto1 filled with nitrogen ice, displays an astonishing pattern of flat polygons separated by narrow troughs. This feature is a sign of thermal convection within the icy mass that constantly renews its surface. Until now the driver of this process was a riddle. However, in their study published in Nature on 15 December 2021, researchers from the CNRS, ENS de Lyon,2 and the University of Exeter unveil the mystery behind the formation of these structures. Despite the low level of solar radiation, the nitrogen ice here is regularly sublimated, i.e., transformed directly into gas without first becoming a liquid. This sublimation results in local cooling that causes movements in the ice layer on the scale of 100,000 years, which is comparable to the speed of tectonic plate motion on Earth. The process bears a stronger resemblance to the movement of our oceans than to the behaviour of ice layers on the moons of Jupiter and Saturn. It may also occur on the surface of other planetary bodies like Triton, a moon of Neptune; or Eris and Makemake, among the largest Kuiper Belt Objects.

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Dynamics of nitrogen ice on Pluto.
Up: Part of Sputnik Planitia revealing polygonal shapes created by convection within the ice (© NASA / JHUAPL / SwRI; https://www.nasa.gov/image-feature/pluto-s-icy-plains-in-highest-resolution-views-from-new-horizons).
Down: Temperature anomalies under surface of ice as predicted by computer model presented by study authors (© A. Morison / S. Labrosse / G. Choblet).

 

  • 1Discovered on 14 July 2015 by American probe New Horizons
  • 2From the Laboratoire de Géologie de Lyon (CNRS / ENS de Lyon / Université Claude Bernard Lyon 1) and the Laboratoire de Planétologie et Géodynamique (CNRS / Université de Nantes / Université d’Angers).
Bibliography

Sublimation-driven convection in Sputnik Planitia on Pluto. A. Morison, S. Labrosse & G. Choblet. Nature, 15 december 2021. DOI : https://doi.org/10.1038/s41586-021-04095-w

Contact

Stéphane Labrosse
ENS de Lyon researcher
Gaël Choblet
CNRS researcher
Alexiane Agullo
CNRS press officer