PHOTO CREDIT: The Natural History Museum of Utah

Keegan Melstrom, the study’s lead author, with the fossil jaw of Brachychampsa and 3D prints of other extinct crocodyliforms (blue). The teeth of Brachychampsa are bulbous, suggesting a diet of hard-shelled animals, whereas many others are complex and imply a diet made up of plants.

Based on careful study of fossilized teeth, scientists Keegan Melstrom and Randall Irmis at the Natural History Museum of Utah at the University of Utah have found that multiple ancient groups of crocodyliforms—the group including living and extinct relatives of crocodiles and alligators—were not the carnivores we know today, as reported in the journal Current Biology on June 27, 2019. In fact, the evidence suggests that a veggie diet arose in the distant cousins of modern crocodylians at least three times.

“The most interesting thing we discovered was how frequently it seems extinct crocodyliforms ate plants,” said Melstrom, a doctoral student at the University of Utah. “Our study indicates that complexly shaped teeth, which we infer to indicate herbivory, appear in the extinct relatives of crocodiles at least three times and maybe as many as six.”

All living crocodylians possess a similar general body shape and ecology to match their lifestyle as semiaquatic generalist carnivores, which includes relatively simple, conical teeth. It was clear from the start of the study that extinct species showed a different pattern, including species with many specializations not seen today. One such specialization is a feature known as heterodonty: Regionalized differences in tooth size or shape.

PHOTO CREDIT: Provided by Keegan Melstrom

False color 3D images showing the range in shape of crocodyliform teeth. Carnivores (left), such as the living Caiman, have simple teeth, whereas herbivores (right) have much more complex teeth.

“Carnivores possess simple teeth whereas herbivores have much more complex teeth,” Melstrom explained. “Omnivores, organisms that eat both plant and animal material, fall somewhere in between. Part of my earlier research showed that this pattern holds in living reptiles that have teeth, such as crocodylians and lizards. So these results told us that the basic pattern between diet and teeth is found in both mammals and reptiles, despite very different tooth shapes, and is applicable to extinct reptiles.”

PHOTO CREDIT: Jorge Gonzalez

Life reconstructions of extinct crocodyliforms. Differences in tooth shape are related to differences in diets.

To infer what those extinct crocodyliforms most likely ate, Melstrom and his graduate advisor and chief curator at the Natural History Museum of Utah, Irmis compared the tooth complexity of extinct crocodyliforms to those of living animals using a method originally developed for use in living mammals. Overall, they measured 146 teeth from 16 different species of extinct crocodyliforms.

Using a combination of quantitative dental measurements and other morphological features, the researchers reconstructed the diets of those extinct crocodyliforms. The results show that those animals had a wider range of dental complexities and presumed dietary ecologies than had been appreciated previously.

Plant-eating crocodyliforms appeared early in the evolutionary history of the group, the researchers conclude, shortly after the end-Triassic mass extinction, and persisted until the end-Cretaceous mass extinction that killed off all dinosaurs except birds. Their analysis suggests that herbivory arose independently a minimum of three times, and possibly six times, in Mesozoic crocodyliforms.

3D tooth prints of the extinct crocodyliform Chimaerasuchus and other fossil crocodyliforms. These extinct animals had an impressive diversity of tooth shapes, unlike their living relatives, and some are extremely complex, such as Chimaerasuchus, suggesting an herbivorous diet.

“Our work demonstrates that extinct crocodyliforms had an incredibly varied diet,” Melstrom said. “Some were similar to living crocodylians and were primarily carnivorous, others were omnivores and still others likely specialized in plants. The herbivores lived on different continents at different times, some alongside mammals and mammal relatives, and others did not. This suggests that an herbivorous crocodyliform was successful in a variety of environments!”

Melstrom said they are continuing to reconstruct the diets of extinct crocodyliforms, including in fossilized species that are missing teeth. He also wants to understand why the extinct relatives of crocodiles diversified so radically after one mass extinction but not another, and whether dietary ecology could have played a role.

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Follow Keegan Melstrom on Twitter @gulosuchus.

This research was supported by the U.S. National Science Foundation, the Welles Fund from the University of California Museum of Paleontology and the University of Utah Department of Geology & Geophysics Chapman Fund.

Current Biology, Melstrom and Irmis: “Repeated Evolution of Herbivorous Crocodyliforms during the Age of Dinosaurs” https://www.cell.com/current-biology/fulltext/S0960-9822(19)30690-6 DOI: 10.1016/j.cub.2019.05.076

Current Biology (@CurrentBiology), published by Cell Press, is a bimonthly journal that features papers across all areas of biology. Current Biology strives to foster communication across fields of biology, both by publishing important findings of general interest and through highly accessible front matter for non-specialists. Visit: http://www.cell.com/current-biology.

 

Media Contacts

Patti Carpenterdirector of public relations, Natural History Museum of Utah
Office: 801-585-6369 Mobile: 801-707-6138

Randall Irmisassociate professor and curator of paleontology, Natural History Museum of Utah
Office: 801-585-0561

Keegan Melstromdoctoral student, Department of Geology and Geophysics; Natural History Museum of Utah
Mobile: 231-884-1464


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