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Molecular distribution, 13 C‐isotope, and enantiomeric compositions of carbonaceous chondrite monocarboxylic acids
Author(s) -
Aponte José C.,
Woodward Hannah K.,
Abreu Neyda M.,
Elsila Jamie E.,
Dworkin Jason P.
Publication year - 2019
Publication title -
meteoritics and planetary science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.09
H-Index - 100
eISSN - 1945-5100
pISSN - 1086-9379
DOI - 10.1111/maps.13216
Subject(s) - chondrite , meteorite , murchison meteorite , parent body , chemistry , carbonaceous chondrite , carbon fibers , acetic acid , isotopes of carbon , organic matter , total organic carbon , environmental chemistry , astrobiology , organic chemistry , materials science , physics , composite material , composite number
The water‐soluble organic compounds in carbonaceous chondrite meteorites constitute a record of the synthetic reactions occurring at the birth of the solar system and those taking place during parent body alteration and may have been important for the later origins and development of life on Earth. In this present work, we have developed a novel methodology for the simultaneous analysis of the molecular distribution, compound‐specific δ 13 C, and enantiomeric compositions of aliphatic monocarboxylic acids ( MCA ) extracted from the hot‐water extracts of 16 carbonaceous chondrites from CM , CR , CO , CV , and CK groups. We observed high concentrations of meteoritic MCA s, with total carbon weight percentages which in some cases approached those of carbonates and insoluble organic matter. Moreover, we found that the concentration of MCA s in CR chondrites is higher than in the other meteorite groups, with acetic acid exhibiting the highest concentration in all samples. The abundance of MCA s decreased with increasing molecular weight and with increasing aqueous and/or thermal alteration experienced by the meteorite sample. The δ 13 C isotopic values of MCA s ranged from −52 to +27‰, and aside from an inverse relationship between δ 13 C value and carbon straight‐chain length for C 3 –C 6 MCA s in Murchison, the 13 C‐isotopic values did not correlate with the number of carbon atoms per molecule. We also observed racemic compositions of 2‐methylbutanoic acid in CM and CR chondrites. We used this novel analytical protocol and collective data to shed new light on the prebiotic origins of chondritic MCA s.

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