Compound‐specific carbon isotope compositions of aldehydes and ketones in the Murchison meteorite

Author
Simkus, Danielle N.
Aponte, José C.
Hilts, Robert
Elsila, Jamie E.
Herd, Christopher D. K.
Faculty Advisor
Date
2019
Keywords
aldehydes , ketones , Murchison meteorite , Strecker‐cyanohydrin synthesis , cosmos , prebiotic reactions , carbonyl compounds , interstellar medium , asteroid , solar system
Abstract (summary)
Compound‐specific carbon isotope analysis (δ13C) of meteoritic organic compounds can be used to elucidate the abiotic chemical reactions involved in their synthesis. The soluble organic content of the Murchison carbonaceous chondrite has been extensively investigated over the years, with a focus on the origins of amino acids and the potential role of Strecker‐cyanohydrin synthesis in the early solar system. Previous δ13C investigations have targeted α‐amino acid and α‐hydroxy acid Strecker products and reactant HCN; however, δ13C values for meteoritic aldehydes and ketones (Strecker precursors) have not yet been reported. As such, the distribution of aldehydes and ketones in the cosmos and their role in prebiotic reactions have not been fully investigated. Here, we have applied an optimized O‐(2,3,4,5,6‐pentafluorobenzyl)hydroxylamine (PFBHA) derivatization procedure to the extraction, identification, and δ13C analysis of carbonyl compounds in the Murchison meteorite. A suite of aldehydes and ketones, dominated by acetaldehyde, propionaldehyde, and acetone, were detected in the sample. δ13C values, ranging from −10.0‰ to +66.4‰, were more 13C‐depleted than would be expected for aldehydes and ketones derived from the interstellar medium, based on interstellar 12C/13C ratios. These relatively 13C‐depleted values suggest that chemical processes taking place in asteroid parent bodies (e.g., oxidation of the IOM) may provide a secondary source of aldehydes and ketones in the solar system. Comparisons between δ13C compositions of meteoritic aldehydes and ketones and other organic compound classes were used to evaluate potential structural relationships and associated reactions, including Strecker synthesis and alteration‐driven chemical pathways.
Publication Information
Danielle N. Simkus, Jose C. Aponte, Robert W. Hilts and Christopher D.K Herd, Compound-specific carbon isotope compositions of aldehydes and ketones in the Murchison Meteorite. Meteoritics and Planetary Science, (2019) 54, Nr. 1,142-156.
DOI
Notes
Item Type
Article
Language
English
Rights
All Rights Reserved