A collection of fossilized dinosaur bones from Wyoming feature tooth marks that provide evidence that some bites were likely created by Tyrannosaurus rex , according to a study published July 15, 2026 in the open access journal PLOS One by Bethania C. T. Siviero from Loma Linda University, USA, and colleagues.
Tooth marks on fossilized bones offer scientists unique insights into ecosystems and animal behavior millions of years ago. This study describes and identifies several types of punctures, holes, and other marks on fossils that appear to be tooth marks. The researchers developed a guide, based on previously published research and their new findings, for how to interpret tooth traces on fossils.
The research team examined over 3,000 bones from northeastern Wyoming from the late Cretaceous period, about 72 - 66 million years ago. Most of the bones were from Edmontosaurus annectens , a large, duck-billed herbivorous dinosaur.
Just 12 of the bones had tooth traces. Four of those bones had distinct tooth mark patterns, and based on the shape and spacing of these marks, the researchers believe they came from T. rex . Some of the other tooth traces may have been created by other contemporaneous carnivores, including other dinosaurs and crocodilians.
Most of the bones with tooth marks show no evidence of any healing around the marks, meaning that these marks were probably made around or after the animals’ deaths. This, along with previous research on bones from this site, indicates that not only may some of the animals have been predated, but also that their carcasses may have been exposed to the elements and scavenged, before eventually being buried and fossilized.
Tooth marks in fossils often look like punctures or furrows, but similar marks can form on bones for a variety of other reasons, such joint disease, or erosion after the animal has died. If researchers want to study prehistoric ecology and animal behavior using bite marks, they need to ensure that these really are bite marks. By laying out a set of criteria for identifying tooth marks in fossil bones, this study helps to hone a vital paleontological research tool.
The authors add: “Correctly identifying bone depressions and perforations is important because not all of these features are tooth marks. Some are caused by diseases, while others result from post-mortem processes such as insect activity or other processes due to bone exposure. Distinguishing between these different types of bone modifications is essential, as they can provide valuable information about an animal's condition before death as well as the processes that affected its remains after death.”
“The study of tooth marks on fossil bones is important because it provides valuable insights into animal behavior and interactions between species.”
In your coverage, please use this URL to provide access to the freely available article in PLOS One : https://plos.io/4eVZgJ7
Citation: C. T. Siviero B, Rega E, McLain MA, Brand LR, Nelsen D, Chadwick AV (2026) Identification of tooth traces from a Cretaceous (Maastrichtian) Edmontosaurus annectens bonebed in the Lance Formation, Wyoming, U.S.A. PLoS One 21(7): e0351939. https://doi.org/10.1371/journal.pone.0351939
Author countries: USA.
Funding: Internal fundings from Loma Linda University.
PLOS One
Observational study
Animals
Identification of tooth traces from a Cretaceous (Maastrichtian) Edmontosaurus annectens bonebed in the Lance Formation, Wyoming, U.S.A.
15-Jul-2026
The authors have declared that no competing interests exist.