Trilobites: The Prehistoric Puzzle of How Plesiosaurs Swam Through the Oceans

“Plesiosaurs definitely used all four flippers for propulsion and that made them more efficient and effective swimmers,” said Dr. Muscutt. The findings, he said, could help settle the long-running debate on how the plesiosaur swam. They could also contribute to future designs for underwater drones or submersibles.

Dr. Muscutt used a 3D printer to create two faux flippers to represent one side of a plesiosaur and attached them to a mechanical device that aimed to mimic how the creature moved. He crafted the foot-long robotic flippers using photographs of plesiosaur fossil specimens as well as from geometric data collected from today’s flippered-creatures like penguins, turtles and sea lions. He put the flippers into a large water tank, and using different colored dyes, ran several simulations to determine under what conditions the flippers acted most efficiently. The system performed best when the front and back flippers both flapped.

Every flap from the front flipper generated a vortex, or whirlpool, as it went up and as it went down. When the back flippers wove between the whirlpools made by the front flippers, they could use that excess energy to move more efficiently.

More Reporting on Paleontology

“There’s no other animal apart from a dragonfly which utilizes its own wake in this way,” said Dr. Muscutt. “It’s like if you duct tape two penguins together, that’s what you’re getting.”

His colleague Bharathram Ganapathisubramani, a professor of experimental fluid mechanics at the University of Southampton and co-author on the paper, said that the back flipper scavenges the energy coming from the front flipper’s vortices. It’s similar to migratory birds flying in a v-formation: the birds in the back fly more efficiently because of the effort of the birds in the front. When the pair of flippers work harmoniously, the back flipper can increase its thrust by approximately 60 percent and its efficiency by 40 percent.

The scientists now hope to figure out how plesiosaur motion varied by species.

Greg Turk, a computer scientist from the Georgia Institute of Technology who studied plesiosaur movement using a computer simulation in 2015, called the paper an “inventive and well-crafted study,” in an email. However, he added that the limb motions were simplified and that there was still uncertainty concerning the range of motion of the plesiosaur’s hind legs.

“This study has added to our understanding of plesiosaur swimming but we probably have not heard the last word about their locomotion,” he said.

Continue reading the main story

Source: New York Times



Comments are closed.