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Structure, composition, and location of organic matter in the enstatite chondrite Sahara 97096 (EH3)

Authors :
Piani, Laurette
Robert, FrançOis
Beyssac, Olivier
Binet, Laurent
Bourot-Denise, Michèle
Derenne, Sylvie
Guillou, Corentin Le
Marrocchi, Yves
Mostefaoui, Smail
Rouzaud, Jean-Noel
Thomen, Aurelien
Source :
Meteoritics and Planetary Science 47 Issue 1 pages 8-29 January 2012
Publication Year :
2015

Abstract

The insoluble organic matter (IOM) of an unequilibrated enstatite chondrite Sahara (SAH) 97096 has been investigated using a battery of analytical techniques. As the enstatite chondrites are thought to have formed in a reduced environment at higher temperatures than carbonaceous chondrites, they constitute an interesting comparative material to test the heterogeneities of the IOM in the solar system and to constrain the processes that could affect IOM during solar system evolution. The SAH 97096 IOM is found in situ: as submicrometer grains in the network of fine-grained matrix occurring mostly around chondrules and as inclusions in metallic nodules, where the carbonaceous matter appears to be more graphitized. IOM in these two settings has very similar $\delta^{15}N$ and $\delta^{13}C$; this supports the idea that graphitized inclusions in metal could be formed by metal catalytic graphitization of matrix IOM. A detailed comparison between the IOM extracted from a fresh part and a terrestrially weathered part of SAH 97096 shows the similarity between both IOM samples in spite of the high degree of mineral alteration in the latter. The isolated IOM exhibits a heterogeneous polyaromatic macromolecular structure, sometimes highly graphitized, without any detectable free radicals and deuterium-heterogeneity and having mean H- and N-isotopic compositions in the range of values observed for carbonaceous chondrites. It contains some submicrometer-sized areas highly enriched in $^{15}N$ ($\delta^{15}N$ up to 1600 permil). These observations reinforce the idea that the IOM found in carbonaceous chondrites is a common component widespread in the solar system. Most of the features of SAH 97096 IOM could be explained by the thermal modification of this main component.

Details

Database :
arXiv
Journal :
Meteoritics and Planetary Science 47 Issue 1 pages 8-29 January 2012
Publication Type :
Report
Accession number :
edsarx.1502.00216
Document Type :
Working Paper
Full Text :
https://doi.org/10.1111/j.1945-5100.2011.01306.x