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Isotopic ordering in eggshells reflects body temperatures and suggests differing thermophysiology in two Cretaceous dinosaurs

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  • Robert A. Eagle

    (Planetary, and Space Sciences, University of California
    California Institute of Technology
    European Institute of Marine Sciences (IUEM), Université de Brest, UMR 6539, Rue Dumont D’Urville, 29280 Plouzané, France
    Natural History Museum of Denmark, University of Copenhagen)

  • Marcus Enriquez

    (Planetary, and Space Sciences, University of California)

  • Gerald Grellet-Tinner

    (Orcas Island Historical Museums
    CONCIET)

  • Alberto Pérez-Huerta

    (University of Alabama)

  • David Hu

    (California Institute of Technology)

  • Thomas Tütken

    (Institute of Geosciences, University of Mainz)

  • Shaena Montanari

    (Evolution, and Environmental Biology, Columbia University)

  • Sean J. Loyd

    (Planetary, and Space Sciences, University of California
    California State University)

  • Pedro Ramirez

    (California State University)

  • Aradhna K. Tripati

    (Planetary, and Space Sciences, University of California
    European Institute of Marine Sciences (IUEM), Université de Brest, UMR 6539, Rue Dumont D’Urville, 29280 Plouzané, France
    Natural History Museum of Denmark, University of Copenhagen
    Institute of the Environment and Sustainability, California NanoSystems Institute, University of California)

  • Matthew J. Kohn

    (Boise State University)

  • Thure E. Cerling

    (University of Utah)

  • Luis M. Chiappe

    (Natural History Museum of Los Angeles County)

  • John M. Eiler

    (California Institute of Technology)

Abstract

Our understanding of the evolutionary transitions leading to the modern endothermic state of birds and mammals is incomplete, partly because tools available to study the thermophysiology of extinct vertebrates are limited. Here we show that clumped isotope analysis of eggshells can be used to determine body temperatures of females during periods of ovulation. Late Cretaceous titanosaurid eggshells yield temperatures similar to large modern endotherms. In contrast, oviraptorid eggshells yield temperatures lower than most modern endotherms but ∼6 °C higher than co-occurring abiogenic carbonates, implying that this taxon did not have thermoregulation comparable to modern birds, but was able to elevate its body temperature above environmental temperatures. Therefore, we observe no strong evidence for end-member ectothermy or endothermy in the species examined. Body temperatures for these two species indicate that variable thermoregulation likely existed among the non-avian dinosaurs and that not all dinosaurs had body temperatures in the range of that seen in modern birds.

Suggested Citation

  • Robert A. Eagle & Marcus Enriquez & Gerald Grellet-Tinner & Alberto Pérez-Huerta & David Hu & Thomas Tütken & Shaena Montanari & Sean J. Loyd & Pedro Ramirez & Aradhna K. Tripati & Matthew J. Kohn & T, 2015. "Isotopic ordering in eggshells reflects body temperatures and suggests differing thermophysiology in two Cretaceous dinosaurs," Nature Communications, Nature, vol. 6(1), pages 1-11, November.
    • Handle: RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms9296
    DOI: 10.1038/ncomms9296
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