A study has found that while the smallest dinosaur could reach speeds of nearly 64km/h, the lumbering Tyrannosaurus Rex would have also been able to outrun most modern-day sportsmen.
Scientists using computer models calculated the top speeds for five meat-eating dinosaurs in a study they say can also illustrate how animals cope with climate change and extinction.
The velociraptor, whose speed and ferocity was highlighted in the film Jurassic Park, reached 39km/h while the T-Rex could muster speeds of up to 29km/h, the study published in the Royal Society’s Biological Sciences showed.
“Our research, which used the minimum leg-muscle mass T-Rex required for movement, suggests that while not incredibly fast, this carnivore was certainly capable of running and would have little difficulty in chasing down footballer David Beckham, for instance,” said Phil Manning, a palaeontologist at the University of Manchester, who worked on the study.
The smallest dinosaur – the Compsognathus – could run nearly 64km/h, about 8km/h faster than the computer’s estimate for the fastest living animal on two legs, the ostrich.
A top human sprinter can reach a speed of about 40km/h.
The researchers used a computer model to calculate the running speeds of the five dinosaurs that varied in size from the 3kg Compsognathus to a six-tonne Tyrannosaurus.
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They fed information about the skeletal and muscular structure of the dinosaurs into the computer and ran a simulation tens of millions of times to see how fast the animals moved, said William Sellers, a zoologist at the University of Manchester, who led the study.
They checked their method by inputting data of a 70kg human with the muscle and bone structure of a professional sportsman and found the computer accurately spat out a top running speed just behind T-Rex’s pace.
“People have estimated speeds before, but they have always been indirect estimates and hard to verify,” Mr Sellers said.
“What we found is they were all perfectly capable of running.”
Looking at how these ancient animals lived and died out is also important in trying to predict how modern-day species may cope with future climate change, Mr Sellers added.
This study helps to build a biological picture that scientists can use to better understand how dinosaurs adapted to changes in the weather just before they went extinct some 65 million years ago, he said.
“Knowing how these animals coped over the past millions of years will give us clues to what is going to happen over the next thousand years,” he said.
“That is why there has been more recent interest in biology of these animals.”