Nuclear Lab Helps Scientists Peer Into Life of T. Rex Relative

Researchers at a top U.S. laboratory announced Tuesday that they have produced the highest resolution scan ever done of the inner workings of a fossilized tyrannosaur skull using neutron beams and high-energy X-rays, resulting in new clues that could help paleontologists piece together the evolutionary puzzle of the monstrous T. rex.

Officials with Los Alamos National Laboratory and the New Mexico Museum of Natural History and Science said they were able to peer deep into the skull of a “Bisti Beast,” a T. rex relative that lived millions of years ago in what is now northwestern New Mexico.

The images detail the dinosaur’s brain and sinus cavities, the pathways of some nerves and blood vessels and teeth that formed but never emerged.

Never-seen-before views

Thomas Williamson, the museum’s curator of paleontology and part of the team that originally collected the specimen in the 1990s, said the scans are helping paleontologists figure out how the different species within the T. rex family relate to each other and how they evolved.

“We’re unveiling the internal anatomy of the skull so we’re going to see things that nobody has ever seen before,” he said during a news conference Tuesday.

T. rex and other tyrannosaurs were huge, dominant predators, but they evolved from much smaller ancestors.

The fossilized remnants of the Bisti Beast, or Bistahieversor sealeyi, were found in the Bisti/De-Na-Zin Wilderness Area near Farmington, New Mexico. Dry, dusty badlands today, the area in the time of the tyrannosaur would have been a warmer, swampy environment with more trees.

T. rex family member

The species lived about 10 million years before T. rex. Scientists have said it represents one of the early tyrannosaurs that had many of the advanced features, including big-headed, bone-crushing characteristics and small forelimbs, that were integral for the survival of T. rex.

Officials said the dinosaur’s skull is the largest object to date for which full, high-resolution neutron and X-ray CT scans have been done at Los Alamos. The technology is typically used for the lab’s work on defense and national security.

The thickness of the skull, which spans 40 inches (102 centimeters), required stronger X-rays than those typically available to penetrate the fossil. That’s where the lab’s electron and proton accelerators came in.

Sven Vogel, who works at the Los Alamos Neutron Science Center, said the three-dimensional scanning capabilities at the lab have produced images that allow paleontologists to see the dinosaur much as it would have been at the time of its death, rather than just the dense mineral outline of the fossil that was left behind after tens of millions of years.

The team, which included staff from the University of New Mexico and the University of Edinburgh, is scheduled to present its work at an international paleontology conference in Canada next week.

More detail in new scans

Kat Schroeder, a Ph.D. candidate at the University of New Mexico who has been working on the project for about a year, said the scanning technology has the ability to uncover detail absent in traditional X-rays and the resulting three-dimensional images can be shared with fellow researchers around the world without compromising the integrity the original fossil.

Schroeder’s work centers on understanding the behavior of dinosaurs, so seeing the un-erupted teeth in the Bisti Beast’s upper jaw was exciting.

“Looking at how fast they’re replacing teeth tells us something about how fast they’re growing, which tells me something about how much energy they need and how active they were,” she said. “It’s those little things that enable us to understand more and more about prehistoric environments.”



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