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2 - The Chemical Composition of Mercury

Published online by Cambridge University Press:  10 December 2018

Sean C. Solomon
Affiliation:
Lamont-Doherty Earth Observatory, Columbia University, New York
Larry R. Nittler
Affiliation:
Carnegie Institution of Washington, Washington DC
Brian J. Anderson
Affiliation:
The Johns Hopkins University Applied Physics Laboratory, Laurel, Maryland
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Summary

The chemical composition of a planetary body reflects its starting conditions modified by numerous processes during its formation and geological evolution. Measurements by X-ray, gamma-ray, and neutron spectrometers on the MESSENGER spacecraft revealed Mercury’s surface to have surprisingly high abundances of the moderately volatile elements sodium, sulfur, potassium, and chlorine, and a low abundance of iron. This composition rules out some formation models for which high temperatures are expected to have strongly depleted volatiles and indicates that Mercury formed under conditions much more reducing than the other rocky planets of our solar system. Through geochemical modeling and petrologic experiments, the planet’s mantle and core compositions can be estimated from the surface composition and geophysical constraints. The bulk silicate composition of Mercury is likely similar to that of enstatite or metal-rich chondrite meteorites, and the planet’s unusually large core is most likely Si rich, implying that in bulk Mercury is enriched in Fe and Si (and possibly S) relative to the other inner planets. The compositional data for Mercury acquired by MESSENGER will be crucial for quantitatively testing future models of the formation of Mercury and the Solar System as a whole, as well as for constraining the geological evolution of the innermost planet.
Type
Chapter
Information
Mercury
The View after MESSENGER
, pp. 30 - 51
Publisher: Cambridge University Press
Print publication year: 2018

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