99 million years old dinosaur-era bird wings found trapped in amber

99 million years old dinosaur-era bird wings found trapped in amber

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99 million years old dinosaur-era bird wings found trapped in amber

It is far from an uncommon phenomenon to find objects stuck in amber: lizards, bugs, flowers and more are frequently found enclosed in hardened lumps of tree resin. But when a sample with a pair of tiny bird-like wings frozen inside was found by a group of researchers digging through amber mined in Burma, they realised they had something unique.

These wings are some of the most pristine fossilised feathers ever found, at about 99 million years old.

Ryan McKellar, the curator of invertebrate palaeontology at the Royal Saskatchewan Museum in Canada, tells Sarah Kaplan in the Washington Post, “It gives us all the details we could hope for,” “It’s the next best thing to having the animal in your hand.”

Feathers of 99 million-year-old bird wings preserved in amber.

Although birds and dinosaurs are related, the giant lizards did not evolve into modern birds directly. During the Late Jurassic Era, the first ancient birds began to appear around 150 million years ago and then spent millions of years flapping in the shadows of their larger cousins.

While scientists have uncovered many ancient bird fossils over the years, they are rarely very clear because their feathers and hollow bones don’t hold up nearly as well to the fossilization process as mammals, lizards, and the like, Kristin Romey reports for National Geographic.

For the most part, researchers have had to make do with faint imprints of wings left behind in rock and amber.

“The biggest problem we face with feathers in amber is that we usually get small fragments or isolated feathers, and we’re never quite sure who produced [them],” McKellar tells Romey. “We don’t get something like this. It’s mind-blowingly cool.”

Astonishingly, the amber preserved every minute detail of the wings. If you look closely enough, you can see traces of hair, feathers, bones, and how they were all arranged. Even the feathers’ color has survived the eons and is still visible, George Dvorsky reports for Gizmodo.

Using these little wings, McKellar and his colleagues can reconstruct what the birds might have looked like. They published their results this week in the journal Nature Communications.

By examining the feathers and wing remnants close-up, the scientists discovered that the bird was a prehistoric member of the group Enantiornithes.

The tiny, hummingbird-sized animals were much closer in appearance to modern-day birds than their reptilian contemporaries, with only a few remaining vestiges of their scaly ancestors remaining, Kaplan writes.

An illustration of a Enantiornithine partially ensnared by tree resin, based on one of the specimens discovered.

Though these ancient birds had teeth and and clawed wings, they otherwise looked very similar to most birds living today. However, they had one big difference: unlike most modern bird hatchlings, these creatures were born almost fully developed.

“They were coming out of the egg with feathers that looked like flight feathers, claws at the end of their wing,” McKellar tells Kaplan. “It basically implies they were able to function without their parents very early on…modern birds are lucky if they’re born with their eyes open.”

Even if the way birds develop has changed over millions of years, these fossils suggest that their feathers, at least, haven’t. The fossils spotted inside the amber indicate that their former owner’s plumage was very similar to that of modern birds.

Though the world has changed dramatically since the time of the dinosaurs, it appears that birds are still flying using similar equipment as their ancestors.

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P. Natasha Covers Classical Archaeology news and has been with Histecho since 2017. She has a Master's degree in MA Archaeology from New York University's Science, Health and Environmental Reporting program. A California native, she also holds a Bachelor of science in molecular biology and a Master of Science in biology from the University of California, San Diego.

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