George U. Yuen scite author profile

The origin of the organic matter in carbonaceous meteorites remains controversial despite extensive study over the past 20 yr. Motivated by the expectation that the patterns of isotopic variation with molecular structure among the organic compounds would contain important clues to their origin, we have measured the carbon isotopic compositions for individual hydrocarbons and monocarboxylic acids from Murchison meteorite, a C2 carbonaceous chondrite which fell in Australia in 1969. With few exceptions, notably benzene, the volatile products are substantially isotopically heavier than their terrestrial counterparts, signifying their extraterrestrial origin. For both classes of compounds, the ratio of 13C to 12C decreases with increasing carbon number in a roughly parallel manner, and each carboxylic acid exhibits a higher isotopic ratio than the hydrocarbon containing the same number of carbon atoms. These trends are consistent with the kinetically controlled synthesis of higher homologues from lower ones. The results suggest the possibility that the production mechanisms for hydrocarbons and carboxylic acids may be similar; they also impose constraints on the identity of the reactant species.

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Isotopic and molecular analyses of hydrocarbons and monocarboxylic acids of the Murchison meteorite

Krishnamurthy

Epstein

Cronin

et al. 1992

Geochimica et Cosmochimica Acta

158

121

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Unusual stable isotope ratios in amino acid and carboxylic acid extracts from the Murchison meteorite

Epstein

Krishnamurthy

Cronin

et al. 1987

Nature

210

111

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Much effort has been directed to analyses of organic compounds in carbonaceous chondrites because of their implications for organic chemical evolution and the origin of life. We have determined the isotopic composition of hydrogen, nitrogen and carbon in amino acid and monocarboxylic acid extracts from the Murchison meteorite. The unusually high D/H and 15N/14N ratios in the amino acid fraction (delta D = 1,370% after correction for isotope exchange; delta 15N = 90) are uniquely characteristic of known interstellar organic materials. The delta D value of the monocarboxylic acid fraction is lower (377%), but still consistent with an interstellar origin. These results confirm the extraterrestrial origin of both classes of compound, and provide the first evidence suggesting a direct relationship between the massive organo-synthesis occurring in interstellar clouds and the presence of pre-biotic compounds in primitive planetary bodies. The isotope data also bear on the historical problem of distinguishing indigenous material from terrestrial contaminants.

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Quantification of monocarboxylic acids in the Murchison carbonaceous meteorite

Lawless

Yuen

1979

Nature

156

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Monocarboxylic Acids in Murray and Murchison Carbonaceous Meteorites

Yuen

Kvenvolden

1973

Nature

118

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George U. Yuen

Carbon isotope composition of low molecular weight hydrocarbons and monocarboxylic acids from Murchison meteorite

Isotopic and molecular analyses of hydrocarbons and monocarboxylic acids of the Murchison meteorite

Unusual stable isotope ratios in amino acid and carboxylic acid extracts from the Murchison meteorite

Quantification of monocarboxylic acids in the Murchison carbonaceous meteorite

Monocarboxylic Acids in Murray and Murchison Carbonaceous Meteorites

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