Volunteer fossil hunters and trained paleontologists uncover a new Australian dinosaur and the oldest known megaraptorid.

The fossilised neck bone of a flying reptile that was bitten by a crocodile-like creature 76 million years ago has been ...

The microarchitecture of fossil pterosaur bones could hold the key to lighter, stronger materials for the next generation of ...

One pterosaur species gave itself quite the makeover as it grew older and larger. Scientists have spent more than a century wondering if a large and anatomically quirky flying reptile fossil ...

Languages: English. Paleontologists have discovered the fossilized remains of a pterosaur from 76 million years ago—bearing a bite mark from an ancient relative of the crocodile. The flying ...

and the University of New England in Australia, alongside Dr Pickles. Dr Caleb Brown, from the RTMP, said: "Pterosaur bones are very delicate, so finding fossils where another animal has clearly ...

By Elizabeth Landau Above the shores of prehistoric seas and lakes, pterosaurs roamed the skies. They were feathered creatures that ranged in size from pigeons to planes, and the first vertebrates ...

A new analysis of pterosaur bones, however, suggests that their microstructure could inspire lighter, stronger aircraft materials. Pterosaurs were flying reptiles that lived throughout the world ...

The juvenile pterosaur vertebra ... and the University of New England (Australia) say this rare evidence provides insight into predator-prey dynamics in the region during the Cretaceous Period.

The microarchitecture of fossil pterosaur bones could hold the key to lighter, stronger materials for the next generation of aircraft, new research has found. Scientists from The University of ...

The microarchitecture of fossil pterosaur bones could be replicated to develop materials for the next generation of aircraft, new research from Manchester University has found. Microscopic ...