A small, nearly 130-million-year-old fossilized skull found in the Yellow Cat area near Moab is evidence that the super-continental split likely occurred more recently than scientists previously thought and that a group of reptile-like mammals that bridged the reptile and mammal transition experienced an unsuspected burst of evolution across several continents, according to Adam Huttenlocker, lead author and assistant professor from the University of Southern California.
The mammal-like skull found in 2006 just north of Moab on Bureau of Land Management property is a haramiyid. It was known that the hairy, rabbit-like creatures roamed Eurasia during the Triassic and Jurassic periods, as well as the early Cretaceous (when the land masses had completely drifted apart). But there had never been evidence that they were in North America at that time.
“Based on the unlikely discovery of this near-complete fossil cranium, we now recognize a new, cosmopolitan group of early mammal relatives,” said Huttenlocker, lead author of the study and assistant professor of clinical integrative anatomical sciences at the Keck School of Medicine at USC.
The study, published in the journal Nature on May 16, updates the understanding of how mammals evolved and dispersed across major continents during the age of dinosaurs. It suggests that the divide of the ancient landmass Pangea continued for about 15 million years later than previously thought and that mammal migration and that of their close relatives continued during the Early Cretaceous (145 to 101 million years ago). “For a long time, we thought early mammals from the Cretaceous (145 to 66 million years ago) were anatomically similar and not ecologically diverse,” Huttenlocker said. “This finding by our team and others reinforces that, even before the rise of modern mammals, ancient relatives of mammals were exploring specialty niches: insectivores, herbivores, carnivores, swimmers, gliders. Basically, they were occupying a variety of niches that we see them occupy today.”
The study reveals that the early mammal precursors migrated from Asia to Europe, into North America and farther onto major southern continents, said Zhe-Xi Luo, senior author of the study and a paleontologist at the University of Chicago. Huttenlocker and his collaborators at the Utah Geological Survey and the University of Chicago named the new species Cifelliodon wahkarmoosuch. Found in the Cretaceous beds in eastern Utah, the fossil is named in honor of famed paleontologist Richard Cifelli. The species name, “wahkarmoosuch” means “yellow cat” in the Ute tribe’s language in respect of the area where it was found. Scientists used high-resolution computed tomography (CT) scanners to analyze the skull.
“The skull of Cifelliodon is an extremely rare find in a vast fossil-bearing region of the western interior, where the more than 150 species of mammals and reptile-like mammal precursors are represented mostly by isolated teeth and jaws,” said James Kirkland, study co-author in charge of the excavation and a Utah state paleontologist. With an estimated body weight of up to 2.5 pounds, Cifelliodon would seem small compared to many living mammals, but it was a giant among its Cretaceous contemporaries. A full-grown Cifelliodon was probably about the size of a small hare or pika (small mammal with rounded ears, short limbs and a very small tail). It had teeth similar to fruit-eating bats and could nip, shear and crush. It might have incorporated plants into its diet.
The newly named species had a relatively small brain and giant “olfactory bulbs” to process sense of smell. The skull had tiny eye sockets, so the animal probably did not have good eyesight or color vision. It possibly was nocturnal and depended on sense of smell to root out food, Huttenlocker said.
Huttenlocker and his colleagues placed Cifelliodon within a group called Haramiyida, an extinct branch of mammal ancestors related to true mammals. The fossil was the first of its particular subgroup – Hahnodontidae – found in North America. The fossil discovery emphasizes that haramiyidans and some other vertebrate groups existed globally during the Jurassic-Cretaceous transition, meaning the corridors for migration via Pangean landmasses remained intact into the Early Cretaceous.
Most of the Jurassic and Cretaceous fossils of haramiyidans are from the Triassic and Jurassic of Europe, Greenland and Asia. Hahnodontidae was previously known only from the Cretaceous of Northern Africa. It is to this group that Huttenlocker argues Cifelliodon belongs, providing evidence of migration routes between the continents that are now separated in northern and southern hemispheres.
“But it’s not just this group of haramiyidans,” Huttenlocker said. “The connection we discovered mirrors others recognized as recently as this year based on similar Cretaceous dinosaur fossils found in Africa and Europe.”