Litcius/Paper detail

Lunar soil record of atmosphere loss over eons

Nicole X. Nie, Nicolas Dauphas, Zhe J. Zhang, Timo Hopp, M. Sarantos

2024Science Advances21 citationsDOIOpen Access PDF

Abstract

The Moon has a tenuous atmosphere produced by space weathering. The short-lived nature of the atoms surrounding the Moon necessitates continuous replenishment from lunar regolith through mechanisms such as micrometeorite impacts, ion sputtering, and photon-stimulated desorption. Despite advances, previous remote sensing and space mission data have not conclusively disentangled the contributions of these processes. Using high-precision potassium (K) and rubidium (Rb) isotopic analyses of lunar soils from the Apollo missions, our study sheds light on the lunar surface-atmosphere evolution over billions of years. The observed correlation between K and Rb isotopic ratios (δ 87 Rb = 0.17 δ 41 K) indicates that, over long timescales, micrometeorite impact vaporization is the primary source of atoms in the lunar atmosphere.

Topics & Concepts

RegolithAstrobiologyAtmosphere (unit)Space weatheringLunar soilRubidiumEnvironmental scienceGeologyEarth sciencePotassiumPhysicsMaterials scienceMeteorologyAsteroidMetallurgyPlanetary Science and ExplorationAstro and Planetary ScienceIsotope Analysis in Ecology