杏吧原创

Dinosaurs may have waggled their tails to help walk more efficiently

A computer reconstruction of a small two-legged dinosaur suggests it ran more efficiently if it waggled its tail from side to side with every step

When bipedal dinosaurs walked, they probably strode with a swagger, swishing their tails up and down for the same reason humans swing their arms when they walk.

Traditionally, dinosaur tails have been seen as a counterbalance for the weight of a dinosaur鈥檚 head. But and Peter Bishop at the Royal Veterinary College in London say the tail probably played a more active role in a dinosaur鈥檚 gait. With every step, the tail would swing up and down to regulate the dinosaur鈥檚 angular momentum and increase its walking efficiency.

This comes from a computer simulation of Coelophysis bauri, a bipedal dinosaur that lived between about 220 to 195 million years ago. Hutchinson and Bishop and their colleagues designed the simulation as part of an ongoing research project aimed at better understanding the locomotion of early dinosaurs.

To build an accurate biomechanical model of a long-extinct species, the team first turned to modern birds called tinamou (for instance a species called ), which are small birds that prefer running to flying. By grafting a virtual model of a tinamou鈥檚 musculature onto a computerised version of its skeleton, the simulation was able to accurately replicate the tinamou鈥檚 gait. Hutchinson and Bishop then applied the simulation to the muscular and skeletal structure of C. bauri.

dinosaur model
Computer simulations of running locomotion in a modern tinamou bird (brown) and extinct theropod dinosaur Coelophysis (green)
Bishop et al., Sci. Adv. 2021; 7: eabi7348

The simulation didn鈥檛 perform exactly as expected. 鈥淟ooking closely,鈥 says Hutchinson, 鈥渨e realised the tail was doing some rather funny stuff.鈥 Instead of statically extending backward as expected, the tail was an active participant in locomotion. With every step, it would bob up and down twice and swing left and right once, matching the head and leg movements.

To understand the role the tail was playing, the team deleted the tail from their computer model. When this happened, they found that the rest of the dinosaur鈥檚 muscles had to work 18 per cent harder to maintain a consistent running speed, suggesting that the tail鈥檚 movements made for more efficient steps.

鈥淏y understanding how real, living animals work, we can make better inferences about how extinct ones worked,鈥 says Hutchinson.

Science Advances

Article amended on 23 September 2021

We corrected Peter Bishop鈥檚 name

Topics: Dinosaurs