Formation of metre-scale bladed roughness on Europa’s surface by ablation of ice

On Earth, the sublimation of massive ice deposits at equatorial latitudes under cold and dry conditions in the absence of any liquid melt leads to the formation of spiked and bladed textures eroded into the surface of the ice. These sublimation-sculpted blades are known as penitentes. For this proce...

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Published inNature geoscience Vol. 11; no. 12; pp. 901 - 904
Main Authors Hobley, Daniel E. J., Moore, Jeffrey M., Howard, Alan D., Umurhan, Orkan M.
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 01.12.2018
Nature Publishing Group
Subjects
704/445/125
704/445/215
704/445/847
Ablation
Earth
Earth and Environmental Science
Earth Sciences
Earth System Sciences
Equator
Erosion
Erosion rates
Europa
Geochemistry
Geology
Geophysics/Geodesy
Ice
Image detection
Jupiter
Jupiter satellites
Latitude
Lunar surface
Moon
Radar
Radar data
Space weathering
Sublimation
Surface roughness
Topography (geology)
Water ice
Weathering
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Summary:On Earth, the sublimation of massive ice deposits at equatorial latitudes under cold and dry conditions in the absence of any liquid melt leads to the formation of spiked and bladed textures eroded into the surface of the ice. These sublimation-sculpted blades are known as penitentes. For this process to take place on another planet, the ice must be sufficiently volatile to sublimate under surface conditions and diffusive processes that act to smooth the topography must operate more slowly. Here we calculate sublimation rates of water ice across the surface of Jupiter’s moon Europa. We find that surface sublimation rates exceed those of erosion by space weathering processes in Europa’s equatorial belt (latitudes below 23°), and that conditions would favour penitente growth. We estimate that penitentes on Europa could reach 15 m in depth with a spacing of 7.5 m near the equator, on average, if they were to have developed across the interval permitted by Europa’s mean surface age. Although available images of Europa have insufficient resolution to detect surface roughness at the multi-metre scale, radar and thermal data are consistent with our interpretation. We suggest that penitentes could pose a hazard to a future lander on Europa. Sublimation rates of water ice in equatorial regions of Jupiter’s moon Europa are sufficient to sculpt bladed terrain that would pose a hazard to a potential lander mission.
ISSN:1752-0894
1752-0908
DOI:10.1038/s41561-018-0235-0