You might think that if a species died out tens of millions of years ago, its design would be too primitive to have any ...

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

A bite hole in a rare neck bone fossil discovered in Canada suggests a crocodile-like predator chomped on the flying reptile, ...

According to a new publication in the Journal of Paleontology, a juvenile pterosaur vertebrae fossil, commonly known as a ...

The University of Manchester team has found that the internal biological structure of pterosaur bones could inspire the ...

The same goes for anybody who went for a plesiosaur: they weren't dinosaurs, and neither were their flying pals. “You may ...

The pterosaurs were the first vertebrates to achieve powered flight. The species evolved to form enormous wingspans reaching ...

A puncture in the fossilized neck of a winged reptile that flew with the dinosaurs suggests the creature became a feast for a ...

The first pterosaurs had a sail-like tensioning system for flying with potentially cumbersome tail vanes, which they could have used for displays, a new study finds.

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

The Carnegie Museum of Natural History in Pittsburgh, home to the Tyrannosaurus rex holotype and a famous Diplodocus, will benefit from Carole and Daniel Kamin’s donation.

The microarchitecture of fossil pterosaur bones could be replicated to develop materials for next-gen aircraft.