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Journal Articles Nature Communications Year : 2020

Geology of the InSight landing site on Mars

M. Golombek
E. Hauber
N. Williams
M. Kopp
C. Vrettos
N. Mueller
M. Grott
T. Spohn
I. Daubar
P Lognonné
C. Perrin
S. Rodriguez
J. Maki
S. Smrekar
D. Banfield
J. Garvin
C. E Newman
  • Function : Author


The Interior Exploration using Seismic Investigations, Geodesy and Heat Transport (InSight) spacecraft landed successfully on Mars and imaged the surface to characterize the surficial geology. Here we report on the geology and subsurface structure of the landing site to aid in situ geophysical investigations. InSight landed in a degraded impact crater in Elysium Planitia on a smooth sandy, granule-and pebble-rich surface with few rocks. Superposed impact craters are common and eolian bedforms are sparse. During landing, pulsed retro-rockets modified the surface to reveal a near surface stratigraphy of surficial dust, over thin unconsolidated sand, underlain by a variable thickness duricrust, with poorly sorted, unconsolidated sand with rocks beneath. Impact, eolian, and mass wasting processes have dominantly modified the surface. Surface observations are consistent with expectations made from remote sensing data prior to landing indicating a surface composed of an impact-fragmented regolith overlying basaltic lava flows.
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hal-02563276 , version 1 (05-05-2020)



M. Golombek, N. H Warner, J. A Grant, E. Hauber, V. Ansan, et al.. Geology of the InSight landing site on Mars. Nature Communications, 2020, 11 (1), pp.1014. ⟨10.1038/s41467-020-14679-1⟩. ⟨hal-02563276⟩
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