Statistical clumped isotope signatures

Publication date

2016

Authors

Röckmann, ThomasORCID 0000-0002-6688-8968ISNI 0000000396155674
Popa, Maria E.ISNI 0000000022958050
Krol, MaartenISNI 0000000393648174
Hofmann, Magdalena E.G.ISNI 0000000506011795

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Abstract

High precision measurements of molecules containing more than one heavy isotope may provide novel constraints on element cycles in nature. These so-called clumped isotope signatures are reported relative to the random (stochastic) distribution of heavy isotopes over all available isotopocules of a molecule, which is the conventional reference. When multiple indistinguishable atoms of the same element are present in a molecule, this reference is calculated from the bulk (≈average) isotopic composition of the involved atoms. We show here that this referencing convention leads to apparent negative clumped isotope anomalies (anti-clumping) when the indistinguishable atoms originate from isotopically different populations. Such statistical clumped isotope anomalies must occur in any system where two or more indistinguishable atoms of the same element, but with different isotopic composition, combine in a molecule. The size of the anti-clumping signal is closely related to the difference of the initial isotope ratios of the indistinguishable atoms that have combined. Therefore, a measured statistical clumped isotope anomaly, relative to an expected (e.g. thermodynamical) clumped isotope composition, may allow assessment of the heterogeneity of the isotopic pools of atoms that are the substrate for formation of molecules.

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Citation

Röckmann, T, Popa, M E, Krol, M C & Hofmann, M E G 2016, 'Statistical clumped isotope signatures', Scientific Reports, vol. 6, 31947, pp. 1-14. https://doi.org/10.1038/srep31947