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ABC News
6 days ago
- Science
- ABC News
Triassic reptile's bizarre crest shakes up feather evolution theories
Mammals these days have hair, birds have feathers, and reptiles have neither. But the relative nakedness of today's reptiles may not have been the case 247 million years ago, when at least one reptile species appeared to be quite experimental with its embellishments. That's according to fossils of a creature that lived at the beginning of the Triassic period and sported a curious crest running down its spine. The crest, while feather-like, pre-dates feathers by millions of years. A new study published in Nature has described the crested reptile, which was dubbed Mirasaura grauvogeli. Stephan Spiekman, study lead author and a researcher at the State Museum of Natural History in Stuttgart, Germany, said he was fascinated by the creature's complex appendages — particularly since it didn't belong to the group of animals that eventually grew feathers. "Mirasaura was a type of reptile that was very different from dinosaurs and their close relatives," Dr Spiekman said. Stephen Poropat, a palaeontologist at Curtin University who wasn't involved with the research, called the fossils an "extraordinary" find. The Mirasaura fossils were discovered by French palaeontologist Louis Grauvogel in the 1930s in north-eastern France. He found rocks containing small reptilian skeletons, alongside fan-like depressions made from plumes up to 15 centimetres long. Professor Grauvogel thought the mysterious fans were fish fins or insect wings, and didn't connect them to the reptilian skeletons found in the same fossils. In 2019, decades after his death, Professor Grauvogel's collection was acquired by the museum in nearby Stuttgart, and researchers realised that 80 of the fossils belonged to the same animal. The researchers named the creature Mirasaura grauvogeli, which means "Grauvogel's wondrous reptile". But they couldn't immediately tell what the mysterious crests on the creatures' backs were made of. "It was clear pretty quickly that these appendages were not feathers or hairs in the traditional sense," Dr Spiekman said. The team used a number of techniques, including powerful X-rays and electron microscopes, to reconstruct what the creature looked like and figure out the composition of the crests. They discovered remnants of tiny cells called "melanosomes" preserved in the fossil crests, which make the colours in hair, skin and feathers. The melanosomes were shaped similarly to those found in feathers, Dr Spiekman said. "This could indicate that the tissue that they are composed of is quite similar to that of feathers." But the appendages were clearly different to feathers: they didn't have any of the key branching features feathers develop as they grow. "This shows that the structures grew in a largely different way than feathers," Dr Spiekman said. Anatomical analyses of the reptile's skeleton also showed that it belonged to a different group of reptiles to the one that eventually became the dinosaurs. John Long, a palaeontologist at Flinders University who wasn't involved in the research, said that the existence of Mirasaura has profound implications for understanding how feathers and skin evolved. "Prior to this discovery, it was thought that only birds and dinosaurs evolved feather-like structures, and mammals modified those feather-like structures to develop hair," Professor Long said. "This is a third group of animals yet discovered that actually have feather-like structures as part of their skin." Dr Poropat said the discovery helped explain another highly controversial fossil find from a similar time period, called Longisquama insignis. The extinct Longisquama reptile, which was discovered more than 50 years ago, also had feather-like appendages, but its fossils weren't preserved well enough to identify them properly. This led to fierce debates about whether or not the Longisquama reptile had real feathers. "The finding of Mirasaura demonstrates Longisquama's structures are not feathers, because the Mirasaura reptile's are very similar and they're not feathers either," Dr Poropat said. "I'm quite relieved to see that Longisquama finally has a home." The researchers believe the reptiles used the crest to communicate with each other. "It seems most likely that it was used for signalling to other members of the same species, either to attract a mate, or to warn off a competitor, or both," Dr Spiekman said. Professor Long said that we can only speculate about the crest's function, but he agreed that communication was a likely reason. "Certainly today, visual signalling is incredibly important for birds and for many reptiles," he said. Dr Poropat pointed out the Mirasaura reptile lived a few million years after the catastrophic Permian mass extinction. This may have favoured the evolution of more bizarre behaviours and body structures because there was less competition. "The animals that did survive that extinction event were basically free to experiment with all sorts of different modes of life." While the Mirasaura reptile isn't a precursor to the dinosaurs, its existence suggests that other Triassic creatures could also have had strange features that haven't survived fossilisation. "Because soft tissue is so seldom preserved, we are getting an incomplete picture of the past almost inevitably," Dr Poropat said.
New York Times
6 days ago
- Science
- New York Times
Something Like Feathers Grew on a 247-Million-Year-Old Reptile
German paleontologists have discovered a 247-million-year-old fossil of a reptile with a bizarre row of plumes sprouting from its back. The elaborate display is a paradox of evolution. The plumes bear some similarities to feathers, even though the newly discovered reptile was not closely related to birds. Stephan Spiekman, a paleontologist at the Stuttgart State Museum of Natural History in Germany and an author of the new study, said that the discovery could change how scientists think about the origin of feathers. In birds, a complex network of genes is enlisted to sprout feathers from their skin. Part of the network might have already evolved in early reptiles more than 300 million years ago. If that's true, Dr. Spiekman said, it would mean that other ancient reptiles might have sprouted strange ornaments of their own that are waiting to be discovered. 'I hope this will broaden our perspective,' Dr. Spiekman said. 'And then who knows what we'll find?' In their study, which was published on Wednesday in the journal Nature, Dr. Spiekman and his colleagues named the reptile Mirasaura grauvogeli. In Latin, Mirasaura means 'wonderful reptile.' And grauvogeli honors Louis Grauvogel, the French paleontologist who dug up the fossil in 1939. Grauvogel was a wealthy factory owner with training in biology. He spent much of his free time looking for fossils in the quarries of northeastern France, and by the time he died in 1987, he had built up a huge private collection of animal and plant remains. His daughter, Lea Grauvogel-Stamm, herself an accomplished paleontologist, donated the fossils to the Stuttgart Museum in 2019. Want all of The Times? Subscribe.
