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原始巴黎碳质球粒陨石中的原始重稀有气体。

Primordial heavy noble gases in the pristine Paris carbonaceous chondrite.

作者信息

Bekaert David V, Marrocchi Yves, Meshik Alex, Remusat Laurent, Marty Bernard

机构信息

Centre de Recherches Pétrographiques et Géochimiques CRPG-CNRS Université de Lorraine UMR 7358 15 rue Notre Dame des Pauvres, BP 20 54501 Vandoeuvre-lès-Nancy France.

Department of Physics Washington University 1 Brookings Drive Saint Louis Missouri 63130 USA.

出版信息

Meteorit Planet Sci. 2019 Feb;54(2):395-414. doi: 10.1111/maps.13213. Epub 2018 Nov 13.

DOI:10.1111/maps.13213
PMID:30828243
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6378587/
Abstract

The Paris carbonaceous chondrite represents the most pristine carbonaceous chondrite, providing a unique opportunity to investigate the composition of early solar system materials prior to the onset of significant aqueous alteration. A dual origin (namely from the inner and outer solar system) has been demonstrated for water in the Paris meteorite parent body (Piani et al. 2018). Here, we aim to evaluate the contribution of outer solar system (cometary-like) water ice to the inner solar system water ice using Xe isotopes. We report Ar, Kr, and high-precision Xe isotopic measurements within bulk CM 2.9 and CM 2.7 fragments, as well as Ne, Ar, Kr, and Xe isotope compositions of the insoluble organic matter (IOM). Noble gas signatures are similar to chondritic phase Q with no evidence for a cometary-like Xe component. Small excesses in the heavy Xe isotopes relative to phase Q within bulk samples are attributed to contributions from presolar materials. CM 2.7 fragments have lower Ar/Xe relative to more pristine CM 2.9 fragments, with no systematic difference in Xe contents. We conclude that Kr and Xe were little affected by aqueous alteration, in agreement with (1) minor degrees of alteration and (2) no significant differences in the chemical signature of organic matter in CM 2.7 and CM 2.9 areas (Vinogradoff et al. 2017). Xenon contents in the IOM are larger than previously published data of Xe in chondritic IOM, in line with the Xe component in Paris being pristine and preserved from Xe loss during aqueous alteration/thermal metamorphism.

摘要

巴黎碳质球粒陨石是最原始的碳质球粒陨石,为研究早期太阳系物质在显著水蚀作用开始之前的成分提供了独特机会。巴黎陨石母体中的水已被证明有双重来源(即来自内太阳系和外太阳系)(皮亚尼等人,2018年)。在此,我们旨在利用氙同位素评估外太阳系(类彗星)水冰对内太阳系水冰的贡献。我们报告了CM 2.9和CM 2.7块状碎片中的氩、氪和高精度氙同位素测量结果,以及不溶性有机物(IOM)的氖、氩、氪和氙同位素组成。惰性气体特征与球粒陨石相Q相似,没有类彗星氙成分的证据。相对于块状样品中的相Q,重氙同位素的少量过量归因于前太阳物质的贡献。CM 2.7碎片相对于更原始的CM 2.9碎片具有更低的氩/氙比值,氙含量没有系统差异。我们得出结论,氪和氙受水蚀作用影响较小,这与以下两点一致:(1)蚀变程度较小;(2)CM 2.7和CM 2.9区域有机物的化学特征没有显著差异(维诺格拉多夫等人,2017年)。IOM中的氙含量高于此前发表的球粒陨石IOM中氙的数据,这与巴黎陨石中的氙成分原始且在水蚀作用/热变质过程中未发生氙损失一致。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/facd/6378587/4a3b6ceabac6/MAPS-54-395-g008.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/facd/6378587/4a3b6ceabac6/MAPS-54-395-g008.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/facd/6378587/f21311579969/MAPS-54-395-g002.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/facd/6378587/5bce4b17b1ee/MAPS-54-395-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/facd/6378587/4a3b6ceabac6/MAPS-54-395-g008.jpg

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