(c) Portsmouth University

'cubed' webzine

Anti-allergy parasite
Pancreas protector
Pop hit detector
Body Sensitive Cancer Treatment
Cheaper Smarter phones
Sports Training Tool
Light energy harvesting
Kitchen sink French
Clever cameras
Catalytic clothing
Smart surveillance
Super Broccoli
Kick and click
Pico secure access
Smartphone in Orbit
3D printed plane
Transmitting Data With Light
Brain cell bank
Energy for all seasons
Life-Saving Frogs
Dolphin Therapy
Rainbow money
In a Heartbeat
Restoring Speech
Safer Mosquitoes
Visualising Landscape Changes
Drumming Denim
Genetic clues for Alzheimer’s
Shower-Powered Radio
Assisted-Living Home
Fast-Scan Security
Keeping The Beat
Starfish non-stick drugs
Common Drug Could Reduce Cancer Risk
The Carbon Planet
3D Movie Tool
New Skin for Buildings
Pole Vaulting Pterosaurs
Bees Solve Problem
Rubber Tree Breakthrough
The Camouflage of Cats
Spotting PTSD
Spray on Clothes
The Biology of Thinking
Sphere TV
Driverless bus
Virtual London

University of Portsmouth

For more information on Earth and Environmental Sciences at University of Portsmouth

Natural History Museum

For more information on post-graduate work at the Natural History Museum

cubed logo © British Council

Pole Vaulting Pterosaurs

Too heavy
Sometimes research is a useful corrective to conventional wisdom. When Dr Mark Witton, a Research Associate at Portsmouth University’s School of Earth & Environmental Sciences, and Dr Michael Habib of Chatham University, Pennsylvania, read that the largest pterosaurs were too big to fly, they knew something was missing. ‘Last year,’ says Dr Witton, ‘a study came out which said that no animal larger than 4 or 5 metres across the wings could fly, and could weigh no more than 40 kilograms. Then this year, another study came out that said that the largest pterosaurs weighed about half a ton and that would make them too heavy to fly.’

Wings
What seemed most unusual to Dr Witton, is that a pterosaur skeleton is ‘basically a pair of wings’ with a head on the front. And though they don’t have complete skeletons for the larger pterosaurs, their bodies seemed to be equally adapted for flying. ‘What’s happened in the studies suggesting that they couldn’t fly was more a misunderstanding of the mechanics of pterosaur flight, rather than their actual flight ability’ says Dr Witton.

© Portsmouth University

Size and flight
Research by Dr Habib suggested that as pterosaurs get bigger, their arm bones increase in size dramatically. ‘If you scale up a small bird to a big bird, the wing bones are proportionately very similar, but that’s not the case with their leg bones at all. Their leg bones become very robust and strong and this appears to be related to take off.’ Whether it’s a pterosaur, an insect or bird, the speed and power for takeoff comes from walking limbs. This suggested to Dr Habib that pterosaurs are using their forelimbs to take off. ‘But’, says Dr. Witton, ‘he proposed this idea of the quadripedal launch, a ‘pole-vaulting’ idea. He made almost a throwaway comment in his paper saying that this may explain why some pterosaurs got so much larger than modern birds.’  In their recent paper, they explored the idea arguing that this is probably why pterosaurs can get so enormous. The largest fossil birds on record are about 7 metres across the wings, which is significantly smaller than the 10 metres across, and a quarter of a ton, which is what we think the larger pterosaurs weighed.’

LearnEnglish Science activities
Why not do a language activity based on this cubed story, Pole Vaulting Pterosaurs? You can double-click on any word on this page for a dictionary definition.

DCSIMG