Researchers found that pterosaurs used all four limbs to take off, similar to bats, shedding new light on the flight mechanisms of these large prehistoric animals.
Researchers have discovered that pterosaurs likely used all four limbs to launch themselves into the air, similar to how bats do today. This study, published in PeerJ, offers fresh insights into how pterosaurs achieved flight despite their massive size, with some species boasting wingspans of over ten meters. The findings highlight the remarkable jumping ability these ancient creatures used to initiate flight.
The study, carried out by scientists at the University of Bristol, Liverpool John Moores University, Universidade Federal do ABC, and the University of Keele, follows years of analysis and modeling of how muscles interact with bones to create movement in other animals and is now being used to start answering the question of how the largest flying animals known managed to get off the ground.
The team created the first computer model for this kind of analysis of a pterosaur to test three different ways pterosaurs may have taken off: a vertical burst jump using just the legs like those used by primarily ground-dwelling birds, a less vertical jump using just the legs more similar to the jump used by birds that fly frequently, and a four-limbed jump using its wings as well in a motion more like the take-off jump of a bat. By mimicking these motions, the researchers aimed to understand the leverage available to push the animal into the air.
Findings and Implications
“Larger animals have greater challenges to overcome in order to fly making the ability of animals as large as pterosaurs to do so especially fascinating.” Dr Ben Griffin, the lead author of the study, said. “Unlike birds which mainly rely on their hindlimbs, our models indicate that pterosaurs were more likely to rely on all four of their limbs to propel themselves into the air.”
This study examines one of the long-standing questions about the underlying biomechanics of pterosaurs. This research not only enhances the understanding of pterosaur biology but also provides broader insights into the limits and dynamics of flight in large animals. By comparing pterosaurs with modern birds and bats, the study highlights the remarkable evolutionary solutions to the challenge of powered flight.
Reference: “Modelling take-off moment arms in an ornithocheiraean pterosaur” by Benjamin W. Griffin, Elizabeth Martin-Silverstone, Rodrigo V. Pêgas, Erik Anthony Meilak, Fabiana R. Costa, Colin Palmer and Emily J. Rayfield, 5 August 2024, PeerJ.
DOI: 10.7717/peerj.17678