Anomalous 13C enrichment in Mesozoic vertebrate enamel reflects environmental conditions in a vanished world and not a unique dietary physiology

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Abstract

Biogeochemical analyses of organisms' tissues provide direct proxies for diets, behaviors, and environmental interactions that have proven invaluable for studies of extant and extinct species. Applying these to Cretaceous ecosystems has at times produced anomalous results, however, as dinosaurs preserve unusually positive stable carbon isotope compositions relative to extant C3-feeding vertebrates. This has been hypothesized to be a unique property of dinosaur dietary physiology, with potential significance for our interpretations of their paleobiology. We test that hypothesis through multi-taxic stable carbon isotope analyses of a spatiotemporally constrained locality in the Late Cretaceous of Canada, and compare the results to a modern near-analogue environment in Louisiana. The stable carbon isotope anomaly is present in all sampled fossil vertebrates, dinosaur or not. This suggests another more widespread factor is responsible. Examinations of diagenetic effects suggest that, where present, they are insufficient to explain the isotope anomaly. The isotope anomaly is therefore not primarily the result of a unique dietary physiology of dinosaurs, but rather a mix of factors impacting all taxa, such as environmental and/or source-diet differences. Our study underscores the importance of multi-taxic samples from spatiotemporally constrained localities in testing hypotheses of extinct organisms and ecosystems, and in the use of modern data to "ground truth"when evaluating analogue versus non-analogue conditions in greenhouse paleoecosystems.

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Cullen, T. M., Longstaffe, F. J., Wortmann, U. G., Huang, L., & Evans, D. C. (2023). Anomalous 13C enrichment in Mesozoic vertebrate enamel reflects environmental conditions in a vanished world and not a unique dietary physiology. Paleobiology, 49(3), 563–577. https://doi.org/10.1017/pab.2022.43

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