Scientists were finally given access to a remarkable Archaeopteryx fossil that’s allowed them to better understand exactly ...

Newly discovered feathers were crucial to how Archaeopteryx was able to fly. Archaeopteryx is the fossil that helped confirm ...

The Chicago Archaeopteryx features more soft tissue and delicate skeletal details than any known fossil of its kind, and ...

Scans of the most well-preserved fossil of a prehistoric flying reptile with intact feathers have revealed how the first ...

New insights into the flying capabilities of a nonbird dinosaur were drawn from an unusually well-preserved specimen known as ...

A Chicago fossil of Archaeopteryx uncovers unknown features, supporting theories of bird evolution from dinosaurs and ...

A polished piece of amber from Myanmar has revealed one of the most significant fossil discoveries in recent years– an ...

Scans of the most well-preserved fossil of a prehistoric flying reptile with intact feathers have revealed how the first birds managed to fly while their non-bird dinosaur cousins could not.

A new Archaeopteryx fossil with soft tissue reveals flight features and offers fresh support for Darwin’s theory of evolution ...

The findings included feathers indicating that Archaeopteryx could achieve powered flight. While most Archaeopteryx fossil specimens “are incomplete and crushed,” this fossil was missing just ...