is perhaps the most famous of all dinosaurs. It and its closest kin, a group referred to as “tyrannosaurs”, have been embedded in popular culture as powerful and mobile predators.
Consider the below scene from the 1993 blockbuster Jurassic Park; an adult
chases down a speeding Jeep — much to the thrill of the audience.
The 1993 Jeep chase scene from Jurassic Park remains an iconic movie moment.
But Jeeps and fanciful theme parks aside, are these depictions realistic?
in the Journal of Vertebrate Paleontology, shows while young tyrannosaurs may have indeed been the vision of wrath depicted above, they likely became broader-footed, bulky and less mobile in adulthood.
A new perspective
Previous arguments about the way tyrannosaurs did (or didn’t) run either focused on their bones, or relied on computer models to simulate their running abilities.
Apart from being smaller, the
of young tyrannosaurs are also more lightly built than their bulkier parents, which suggests they were probably faster and more nimble for their body size. Juveniles tended to have relatively longer legs and smaller skulls, and weighed much
less than a fully grown adult
In fact, the volume of leg muscles needed to sustain a fast running pace in a six-tonne adult
would have probably been
. This would require the dinosaur having as much as 86% of its total body weight just as leg muscle!
However, skeletons only represent part of the story. Fossilised footprints provide a unique snapshot in time of how an
(or species) moved about its
— one not provided by skeletons.
Fossilised footprints are a fleshed-out image of the feet as they once appeared in real life, with the soft parts still intact.
In 2015 and 2018, our team discovered a new collection of tyrannosaur footprints in rocks at a lonely outpost in western Canada, which we introduce for the first time in our new paper.
These footprints presented a unique opportunity to study how tyrannosaurs’ foot shapes changed from youth to adulthood. If their relative mobility decreased as they grew — as was previously hypothesised from studying their skeletons — then we’d expect this to be expressed in foot shape, too.
Younger and swifter animals would have more slender feet, whereas older individuals would have bulkier feet, less suited for speed and agility.
Tracking ancient footprints through bear country
The tyrannosaur tracks we found remain preserved in a wilderness area near Grande Prairie in Northwestern Alberta, Canada. The region is known for its bitter cold winters, which causes the rivers to flood in spring as snow-melt rolls off the nearby Rocky Mountains.
The footprints themselves are preserved along a bank of the Redwillow River, surrounded by
, which today is home to wildlife including brown bears, black bears and wolves.
Lush forest surrounded the track site where the tyrannosaur footprints were found in Alberta.
Thankfully our close encounters were largely with deer, although swarms of mosquitoes were a constant nuisance.
Tyrannosaur footprints in this area can be identified by the presence of three long and narrow toes, often with sharp, pointed claw marks. We found up to ten footprints, all about 72 million years old, ranging from 30 to 62 centimetres in length.
Although no bones were discovered, the footprints may have belonged to
. This tyrannosaur lived in Alberta at that time and was an earlier and smaller relative of
My, what big heels you have!
Using a method called geometric morphometrics, we analysed the best tyrannosaur footprints from our collection of tracks, along with previously discovered footprints.
This method mathematically removes the effect of overall size difference between each footprint while examining important differences in footprint shape.
Applied to our samples, we found the main difference across all footprints was the surface area and width of the heel relative to the footprint’s length.
Larger prints had proportionally larger heels while smaller tracks had narrower, smaller heels.
This difference likely relates to the imposing size of an adult tyrannosaur, or specifically an adult
, which may have weighed between
1,300 and 2,200 kg
On the left is a photo of a tyrannosaur track likely made by a middle-aged
. The diagram on the right shows how tyrannosaur feet may have changed in both shape and size as they aged.
A wider and more fleshy heel probably helped adults maintain balance and support increased weight, but likely came at the expense of speed and agility.
Our work on footprints serves to support the hypothesis that as tyrannosaurs grew they underwent a shift from quick, sprightly juveniles to slower, heavy-set adults.
Slowed down by old age
Would this have been a problem for catching food as an adult tyrannosaur? Probably not. The large four-legged herbivores they hunted, such as
(which weighed about 4,000kg), were probably even slower.
So what about that chase scene from Jurassic Park?
Well, we still can’t be certain exactly how fast an adult
could run. But we can say heavier and bulkier adults were probably slower for their body size than more slender juveniles.
Perhaps it should have been a juvenile tyrannosaur chasing that Jeep instead. Although, this wouldn’t have been quite as scary.
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