Friday, June 28, 2019

[Paleontology • 2019] Repeated Evolution of Herbivorous Crocodyliforms during the Age of Dinosaurs


Notosuchus sp., Chimaerasuchus paradoxus,
Armadillosuchus arrudai  Pakasuchus kapilimai 

in Melstrom & Irmis, 2019. 
Illustration: Jorge Gonzalez 

Highlights
• Some extinct crocodyliforms, relatives of living crocodylians, possess complex teeth
• Quantitative analyses suggest some species with complex teeth were likely herbivores
• Herbivorous crocodyliforms evolved at least three times independently
• Some dentitions rival the complexities of living mammal herbivores

Summary
Extinct crocodyliforms from the age of dinosaurs (Mesozoic Era) display an impressive range of skeletal morphologies, suggesting a diversity of ecological roles not found in living representatives. In particular, unusual dental morphologies develop repeatedly through the evolutionary history of this group. Recent descriptions of fossil crocodyliforms and their unusual teeth provide the inferential basis for a wide range of feeding ecologies. However, tests of these hypotheses are hindered by the lack of directly comparable dental morphologies in living reptiles and mammals, thereby preventing an accurate ecosystem reconstruction. Here, we demonstrate, using a combination of the orientation patch count rotated method and discrete morphological features, that Mesozoic crocodyliforms exploited a much greater range of feeding ecologies than their extant relatives, including likely omnivores and herbivores. These results also indicate that crocodyliforms independently developed high-complexity dentitions a minimum of three times. Some taxa possess teeth that surpass the complexities of living herbivorous lizards and rival those of omnivorous and herbivorous mammals. This study indicates that herbivorous crocodyliforms were more common than previously thought and were present throughout the Mesozoic and on most continents. The occurrence of multiple origins of complex dentitions throughout Crocodyliformes indicates that herbivory was a beneficial dietary strategy and not a unique occurrence. Many of these crocodyliforms lived alongside omnivorous or herbivorous synapsids, illustrating an ecological partition that is not observed today.

Keywords: diet, dental complexity, mesozoic, paleoecology


Figure 3. Time-Calibrated Phylogeny Displaying Reconstructed Diets of Extinct Crocodyliforms The geographic location of each taxon is indicated by modern land-mass silhouettes for Africa, Asia, Australia, Europe, Madagascar, North America, and South America. Gold stars represent the inferred evolutionary originations of herbivory, whereas the teal star indicates potential single origin of herbivory in Notosuchia. Inferred carnivores possess teeth that were not sampled for this study but have dentitions that resemble those of measured taxa, primarily conical or labiolingually compressed morphologies.

Thalattosuchia is not included because the phylogenetic position of this clade is still disputed [27]. Phylogeny modified from [28]. EJ, Early Jurassic; EK, Early Cretaceous; Eo, Eocene; LJ, Late Jurassic; LK, Late Cretaceous; LT, Late Triassic; Mi, Miocene; MJ, Middle Jurassic; Ol, Oligocene; Pa, Paleocene; Pe, Pleistocene; Pl, Pliocene.

Life reconstructions of extinct crocodyliforms. Differences in tooth shape are related to differences in diets.
Illustration: Jorge Gonzalez




 Keegan M. Melstrom and Randall B. Irmis. 2019. Repeated Evolution of Herbivorous Crocodyliforms during the Age of Dinosaurs. Current Biology. DOI: 10.1016/j.cub.2019.05.076  


Some extinct crocs were vegetarians phys.org/news/2019-06-extinct-crocs-vegetarians.html via @physorg_com