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Main Authors: Renggli, Christian J., Steenstra, Edgar S., Saal, Alberto E.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.18599
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author Renggli, Christian J.
Steenstra, Edgar S.
Saal, Alberto E.
author_facet Renggli, Christian J.
Steenstra, Edgar S.
Saal, Alberto E.
contents This chapter presents a comprehensive overview of the abundances and distribution of S, and the processes that control the behavior of S on the Earth's Moon and on Mercury. The two planetary bodies share notable similarities, such as lacking substantial atmospheres and featuring surfaces with high numbers of impact craters. Both objects are at variably low oxygen fugacities (fO2), where S occurs only in its reduced state as S2-, and forms sulfides. For the Moon, we present a compilation of 55 years of lunar sample analysis, from Apollo 11 to Chang'e 5, including S concentrations and isotopic compositional data. We discuss processes from S in the lunar interior to volcanic degassing from mare basalts and in pyroclastic eruptions. At the beginning of a lunar science renaissance, we highlight where future research into S on the Moon might lead. The knowledge of S on Mercury is almost entirely based on observations by the NASA MESSENGER mission, operational from 2011 to 2014. MESSENGER observed very high S abundances on Mercury with concentrations of up to 4 wt.%. We discuss proposed mechanisms that lead to the high S abundance on Mercury's surface and discuss implications for the planet's interior. Finally, we provide an outlook on how the upcoming ESA/JAXA BepiColombo will advance our understanding of Mercury and the processes controlling S on the planet.
format Preprint
id arxiv_https___arxiv_org_abs_2410_18599
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Sulfur in the Moon and Mercury
Renggli, Christian J.
Steenstra, Edgar S.
Saal, Alberto E.
Earth and Planetary Astrophysics
This chapter presents a comprehensive overview of the abundances and distribution of S, and the processes that control the behavior of S on the Earth's Moon and on Mercury. The two planetary bodies share notable similarities, such as lacking substantial atmospheres and featuring surfaces with high numbers of impact craters. Both objects are at variably low oxygen fugacities (fO2), where S occurs only in its reduced state as S2-, and forms sulfides. For the Moon, we present a compilation of 55 years of lunar sample analysis, from Apollo 11 to Chang'e 5, including S concentrations and isotopic compositional data. We discuss processes from S in the lunar interior to volcanic degassing from mare basalts and in pyroclastic eruptions. At the beginning of a lunar science renaissance, we highlight where future research into S on the Moon might lead. The knowledge of S on Mercury is almost entirely based on observations by the NASA MESSENGER mission, operational from 2011 to 2014. MESSENGER observed very high S abundances on Mercury with concentrations of up to 4 wt.%. We discuss proposed mechanisms that lead to the high S abundance on Mercury's surface and discuss implications for the planet's interior. Finally, we provide an outlook on how the upcoming ESA/JAXA BepiColombo will advance our understanding of Mercury and the processes controlling S on the planet.
title Sulfur in the Moon and Mercury
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2410.18599