New feathered dinosaur was one of the last surviving raptors

Dineobellator notohesperus lived 67 million years ago. Steven Jasinski, who recently earned his doctorate from the School of Arts and Sciences working with Peter Dodson, led the effort to describe the find.

Illustration showing three feathered dinosaurs in and near a stream with other large dinosaurs nearby
Dineobellator notohesperus is the name of a newly discovered species of dinosaur, that lived near the end of the reign of dinosaurs (Image: Sergey Krasovskiy)

Afeathered dinosaur that lived in New Mexico 67 million years ago is one of the last known surviving raptor species, according to a new publication in the journal Scientific Reports. 

Dineobellator notohesperus adds to scientists’ understanding of the paleo-biodiversity of the American Southwest, offering a clearer picture of what life was like in this region near the end of the reign of the dinosaurs.

paleontologist working in the field
Steven Jasinski

Steven Jasinski, who recently completed his Ph.D. in Penn’s Department of Earth and Environmental Sciences in the School of Arts and Sciences, led the work to describe the new species, collaborating with doctoral advisor Peter Dodson of the School of Veterinary Medicine and Penn Arts and Sciences as well as Robert Sullivan of the New Mexico Museum of Natural History and Science, in Albuquerque. 

In 2008, Sullivan found fossils of the new species in Cretaceous rocks of the San Juan Basin, New Mexico. He, along with his field team of Jasinski and James Nikas, collected the specimen on federal land under a permit issued by the Bureau of Land Management. The entire specimen was recovered during four field seasons. Jasinski and his coauthors gave the species its official name, Dineobellator notohesperus, which means “Navajo warrior from the Southwest,” in honor of the people who today live in the same region where this dinosaur once dwelled.

Dineobellator, as well as its Asian cousin Velociraptor, belong to a group of dinosaurs known as the dromaeosaurids. Members of this group are commonly referred to as “raptor” dinosaurs, thanks to movies such as “Jurassic Park” and “Jurassic World.” But unlike the terrifying beasts depicted in film, Dineobellator stood only about 3.5 feet at the hip and was 6 to 7 feet long, much smaller than its Hollywood counterparts. 

silhouette and outline of a bipedal dinosaur
Researchers believe the dinosaur had a long, flexible tail and strong arms and hands. (Image: Steven Jasinski)

Raptor dinosaurs are generally small, lightly built predators. Consequently, their remains are rare, particularly from the Southwestern U.S. and Mexico. “While dromaeosaurids are better known from places like the northern United States, Canada, and Asia, little is known of the group farther south in North America,” says Jasinski.

While not all of the bones of this dinosaur were recovered, bones from the forearm have quill nobs—small bumps on the surface where feathers would be anchored by ligaments—an indication that Dineobellator bore feathers in life, similar to those inferred for Velociraptor.

Features of the animal’s forelimbs, including enlarged areas of the claws, suggest this dinosaur could strongly flex its arms and hands. This ability may have been useful for holding on to prey by using its hands for smaller animals such as birds and lizards or perhaps its arms and feet for larger species such as other dinosaurs. 

Two scientists observe portions of a fossil embedded in dirt and rock
Robert Sullivan and Steven Jasinski with some of the fossilized bone fragments in New Mexico. (Image: Courtesy of Steven Jasinski)

Its tail also possessed unique characteristics. While most raptors’ tails were straight and stiffened with rod-like structures, Dineobellator’s tail was rather flexible at its base, allowing the rest of the tail to remain stiff and act like a rudder.

“Think of what happens with a cat’s tail as it is running,” says Jasinski. “While the tail itself remains straight, it is also whipping around constantly as the animal is changing direction. A stiff tail that is highly mobile at its base allows for increased agility and changes in direction and potentially aided Dineobellator in pursuing prey, especially in more open habitats.”

Illustration of a dinosaur in a forest with nestlings
Another reconstruction depicts Dineobellator notohesperus with nestlings. (Image: Mary P. Williams)

This new dinosaur provides a clearer picture of the biology of North American dromaeosaurid dinosaurs, especially concerning the distribution of feathers among its members. “As we find evidence of more members possessing feathers, we believe it is likely that all the dromaeosaurids had feathers,” says Jasinski. The discovery also hints at some of the predatory habits of a group of iconic meat-eating dinosaurs that lived just before the extinction event that killed off all the dinosaurs that weren’t birds. 

Jasinski plans to continue his field research in New Mexico with the hope of finding more fossils. 

“It was with a lot of searching and a bit of luck that this dinosaur was found weathering out of a small hillside,” he says. “We do so much hiking, and it is easy to overlook something or simply walk on the wrong side of a hill and miss something. We hope that the more we search, the better chance we have of finding more of Dineobellator or the other dinosaurs it lived alongside.”

Steven E. Jasinski is a curator of paleontology and geology at the State Museum of Pennsylvania and earned his doctoral degree in the Department of Earth and Environmental Science in the University of Pennsylvania School of Arts and Sciences.

Peter Dodson is a professor of veterinary gross anatomy in the School of Veterinary Medicine and a professor of earth and environmental science in the School of Arts and Sciences at the University of Pennsylvania.

Robert Sullivan is a research associate at the New Mexico Museum of Natural History and Science, in Albuquerque.

Jasinski was supported by Geo. L. Harrison and Benjamin Franklin fellowships. The research was also partially funded by a Walker Endowment Research Grant and a University of Pennsylvania Paleontology Research Grant.