A team of researchers has developed a technique to precisely date fossil sites by analyzing uranium and lead in dinosaur eggshells. This method provides accurate ages without relying on surrounding minerals, offering a breakthrough for paleontology. The approach was tested on samples from Utah and Mongolia, yielding results within five percent accuracy.
Fossilized dinosaur eggshells have revealed a built-in geological clock, allowing scientists to determine the age of dinosaur habitats with unprecedented precision. Traditional dating methods often depend on nearby minerals such as zircon or apatite, which are not always present at fossil sites. This limitation has hindered efforts to timeline ancient ecosystems and species interactions. Now, a new approach directly targets the eggshells themselves.
Led by Dr. Ryan Tucker from Stellenbosch University's Department of Earth Sciences, the research employs uranium-lead (U-Pb) dating combined with elemental mapping. The team measures trace amounts of these radioactive elements within the calcite structure of the eggshells, which decay at predictable rates to indicate burial time. The study, published in Communications Earth & Environment, involved collaborators from institutions including the North Carolina Museum of Natural Sciences, North Carolina State University, and the Mongolian Academy of Sciences.
Testing occurred on eggshells from Utah in the United States and the Gobi Desert in Mongolia. Compared against volcanic ash layers, the method achieved an accuracy of about five percent. Notably, it provided the first direct age for a renowned Mongolian site with dinosaur eggs and nests, dating it to approximately 75 million years old.
"Eggshell calcite is remarkably versatile," Dr. Tucker explained. "It gives us a new way to date fossil sites where volcanic layers are missing, a challenge that has limited paleontology for decades."
This innovation bridges biology and Earth sciences, enabling better understanding of dinosaur evolution. Co-author Lindsay Zanno, associate research professor at North Carolina State University and head of paleontology at the North Carolina Museum of Natural Sciences, stated, "Direct dating of fossils is a paleontologist's dream. Armed with this new technique, we can unravel mysteries about dinosaur evolution that used to be insurmountable."
Fieldwork in Mongolia was supported by the Mongolian Alliance for Dinosaur Exploration, with funding from the National Geographic Society and the National Science Foundation.
