Feather color detected in 30 million-year-old bird fossil

Bird fossil from the Oligocene epoch, approximately 30 million years old. (Credit: M.Marsland/Yale)

Bird fossil from the Oligocene epoch, approximately 30 million years old. (Credit: M.Marsland/Yale)

YALE (US)–Scientists have discovered traces of organic material in fossilized bird feathers from 30 millions years ago. Yale University researchers say the material appears to be remnants of pigments that once gave birds their color, opening up the possibility of pinpointing the original hue of ancient birds and their ancestors, the dinosaurs.

Closer study of a number of fossilized bird feathers by Yale graduate student Jakob Vinther has revealed that organic imprints in the fossils—previously thought to be carbon traces from bacteria—are fossilized melanosomes, the organelles that contain melanin pigment.

“Birds frequently have spectacularly colored plumage which are often used in camouflage and courtship display,” says Vinther. “Feather melanin is responsible for rusty-red to jet-black colors and a regular ordering of melanin even produces glossy iridescence. Understanding these organic remains in fossil feathers also demonstrates that melanin can resist decay for millions of years.”

Working with Yale paleontologist Derek E. G. Briggs and Yale ornithologist Richard O. Prum, Vinther analyzed a striped feather found in 100 million-year-old rocks from the Lower Cretaceous Period in Brazil. The team used a scanning electron microscope to show that dark bands of the feather preserved the arrangement of the pigment—bearing structures as a carbon residue—organized much as the structures are in a modern feather. The light bands showed only rock surface.

In another fossil of a bird from the Eocene Epoch—55 million years ago—in Denmark there were similar traces in the feathers surrounding the skull. That fossil also preserved an organic imprint of the eye and showed structures similar to the melanosomes found in eyes of modern birds.

“Many other organic remains will presumably prove to be composed of melanin,” says Vinther. He expects that fur of ancient mammals and skin from dinosaurs preserved as organic imprints will likely be the remains of the melanin.

“Now that we have demonstrated that melanin can be preserved in fossils, scientists have a way to reliably predict, for example, the original colors of feathered dinosaurs,” says Prum, who is the William Robertson Coe Professor of Ornithology and chair of the Department of Ecology and Evolutionary Biology, as well as curator of ornithology at Yale’s Peabody Museum of Natural History.

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