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Going To The ‘Femoral Head’ Of The Class To Explain Dinosaur Evolution

Dinosaurs — and birds — wouldn’t have been able to stand on their own two feet without some radical changes to their upper thigh bones. Now, a new study by Yale paleontologists charts the evolutionary course of these leggy alterations.


Jim Shelton
Nov 28, 2022

Upper femur comparison in modern crocodiles and later dinosaurs and birdsA new study shows how changes in the upper femur developed across a wide range of dinosaurs, early reptiles and avians, and their modern-day counterparts. The femoral “head” twisted inward in early dinosaurs and modern crocodiles (left); it grew an attachment in later dinosaurs and birds (right).

Dinosaurs — and birds — wouldn’t have been able to stand on their own two feet without some radical changes to their upper thigh bones. Now, a new study by Yale paleontologists charts the evolutionary course of these leggy alterations.

The findings resolve a longstanding question about dinosaur evolution and offer a prime example of how new physical features can pop up briefly during embryonic development and then give way to older, known features in adults.

For the study, a research team led by Yale’s Bhart-Anjan S. Bhullar and Shiro Egawa focused on evolutionary shifts in the “femoral head” — where the upper femur connects to the hip — across a wide range of dinosaurs, early reptiles and avians, and their modern-day counterparts. The study appears in Proceedings of the Royal Society B.

The team also included researchers from the National Center of Neurology and Psychiatry in Japan, the American Museum of Natural History, Virginia Tech, the Royal Veterinary College in England, Pontificia Universidad Católica de Chile, Queensland Museum, CNRS/Muséum National d'Histoire Naturelle in France, Missouri State University, and the RIKEN Center for Biosystems Dynamics Research in Japan.

“We figured out the way in which the femoral head, a critical part of dinosaur anatomy, developed,” said Bhullar, associate professor of Earth & planetary sciences in Yale’s Faculty of Arts and Sciences and an associate curator at the Yale Peabody Museum of Natural History. “Inward-turned femoral heads are necessary for fast and effective, erect bipedal locomotion.”

Fossil and embryo comparison of reptiles and birds

For years, Bhullar said, there had been two conflicting theories about how dinosaur femoral heads developed. One theory held that the femoral head simply grew an attachment, or overhang, that reoriented the legs. The other theory was that the femoral head twisted inward over time.Fossil and embryo comparison of reptiles and birdsFor the study, researchers studied femoral head development in a variety of fossils and animal embryos for reptiles (top) and birds (bottom).  

Evidence exists for both the twisting theory, found in early dinosaurs and modern crocodiles, and the in-growth theory, found in later dinosaurs and birds.

For the new study, the researchers used 3D imaging to study femoral head development in a variety of fossils and animal embryos. Bhullar’s lab at Yale is particularly known for its innovative use of CT scanning and microscopy to create 3D images of fossils.

What they discovered is that evidence for both theories occurs together.

“The embryonic development of this major feature changed completely — even while the feature itself remained constant in adults for quite some time,” Bhullar said. “This sort of hidden shift in development might be more common than we think in evolution, and it should serve to caution against the widely held idea that features which develop differently must have evolved separately.”

Shiro Egawa, a former postdoctoral associate in Bhullar’s lab who is now a postdoctoral fellow at the National Center of Neurology and Psychiatry in Japan, is the study’s first author and co-corresponding author.

Co-authors include Christopher Griffin, a postdoctoral fellow in Yale’s Department of Earth & Planetary Sciences, and former Yale researchers João Botelho and Daniel Smith-Paredes.

The research was funded, in part, by the National Science Foundation, the Japan Science Society, the Yamada Science Foundation, RIKEN, and the Zoological Society of Japan.

Publication: Shiro Egawa, et al., The dinosaurian femoral head experienced a morphogenetic shift from torsion to growth along the avian stem,  Proceedings of the Royal Society B (2022). DOI: 10.1098/rspb.2022.0740#d1e1629.

Original Story Source: Yale University


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