Geophysical Research Letters (Nov 2024)

Mercury's Crustal Porosity as Constrained by the Planet's Bombardment History

  • A. Broquet,
  • F. Rolser,
  • A. C. Plesa,
  • D. Breuer,
  • H. Hussmann

DOI
https://doi.org/10.1029/2024GL110583
Journal volume & issue
Vol. 51, no. 21
pp. n/a – n/a

Abstract

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Abstract Knowing the structure of the crust is critical to understanding a planet's geologic evolution. Crustal thickness inversions rely on bulk density estimates, which are primarily affected by porosity. Due to the absence of high‐resolution gravity data, Mercury's crustal porosity has remained unknown. Here, we use a model that was calibrated to the Moon to relate Mercury's impact crater population and long‐wavelength crustal porosity in the cratered terrains. Therein, porosity is created by large impacts and then decreased as the surface ages due to pore compaction by smaller impacts and overburden pressure. Our models fit independent gravity‐derived porosity estimates in the northern regions, where data is well resolved. Porosity in the cratered terrains is found to be 9%–18% with an average and standard deviation of 13% ± 2%, indicating lunar‐like crustal bulk densities of 2,565 ± 70 kg m−3 from which updated crustal thickness maps are constructed.

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