Late delivery of chondritic hydrogen into the lunar mantle: Insights from mare basalts

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• 作者：Romain Tart&egrave ; se^a ; ^{Romain.Tartese@open.ac.uk} ; Mahesh Anand^a ; ^b
• 关键词：chondritic hydrogen ; H2 degassing ; hydrogen isotopes ; late accretion ; mare basalts
• 刊名：Earth and Planetary Science Letters
• 出版年：2013
• 出版时间：1 January, 2013
• 年：2013
• 卷：361
• 期：Complete
• 页码：480-486
• 全文大小：449 K

文摘

Recent analytical advances have enabled first successful in-situ detection of water (measured as OH) in lunar volcanic glasses, and, melt inclusions and minerals from mare basalts. These in-situ measurements in lunar materials, coupled with observations made by orbiting spacecraft missions have challenged the traditional view of the Moon as an anhydrous body. By synthesizing and modeling of previously published data on OH contents and H isotope compositions of apatite from mare basalts, we demonstrate that a model of hydrogen delivery into the lunar interior by late accretion of chondritic materials adequately accounts for the measured ¡°water¡± content and its hydrogen isotopic composition in mare basalts. In our proposed model, ¡°water¡± in the lunar interior was mostly constituted by hydrogen, delivered by the late accretion of chondrite-type materials. Our model is also consistent with previously proposed models to account for other geochemical characteristics of the lunar samples.