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原始陨石中巨大的对映体过量和水在宇宙化学演化中的多种影响。

Large enantiomeric excesses in primitive meteorites and the diverse effects of water in cosmochemical evolution.

机构信息

Arizona State University, Department of Chemistry and Biochemistry, Tempe, AZ 85287-1604, USA.

出版信息

Proc Natl Acad Sci U S A. 2012 Jul 24;109(30):11949-54. doi: 10.1073/pnas.1204865109. Epub 2012 Jul 9.

DOI:10.1073/pnas.1204865109
PMID:22778439
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3409747/
Abstract

Carbonaceous chondrites are meteoritic fragments of asteroids that avoided the geological reprocessing of larger planets and allow laboratory probing of early solar-nebula materials. Among these, Renazzo-type (CR) chondrites found in Antarctica appear remarkably pristine and are distinguished by abundant organic materials and water-soluble molecules such as amino acids and ammonia. We present a comprehensive analysis of the organic composition of selected CR meteorites of different petrographic classification and compare compounds' abundance and distribution as they may relate to asteroidal aqueous processing and concomitant evolution of the mineral phases. We found that several CR compounds such as amino acids and sugar alcohols are fully represented in stones with no or minimal water exposure indicating a formation that, if solar, preceded parent body processes. The most pristine CRs also revealed natal enantiomeric excesses (ee) of up to 60%, much larger than ever recorded. However, aqueous alteration appears to affect CR soluble organic composition and abundances, in particular some diastereomeric amino acids may gauge its extent by the consequent racemization of their ee.

摘要

碳质球粒陨石是小行星的陨石碎片,它们避免了较大行星的地质再处理,使人们能够在实验室中探测早期太阳星云物质。在这些陨石中,在南极洲发现的 Renazzo 型 (CR) 球粒陨石显得格外原始,其特点是含有丰富的有机物质和水溶性分子,如氨基酸和氨。我们对不同岩石学分类的选定 CR 陨石的有机成分进行了全面分析,并比较了化合物的丰度和分布,因为它们可能与小行星水相处理和伴随的矿物相演化有关。我们发现,一些 CR 化合物,如氨基酸和糖醇,在几乎没有或没有水暴露的陨石中都有充分的代表,这表明如果是太阳形成的,那么它们的形成就先于母体过程。最原始的 CR 陨石也显示出高达 60%的初始对映体过量 (ee),远远超过以往的记录。然而,水合作用似乎会影响 CR 可溶性有机成分和丰度,特别是一些非对映异构体氨基酸的 ee 可能会因随后的外消旋化而反映其程度。

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本文引用的文献

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Abundant ammonia in primitive asteroids and the case for a possible exobiology.
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