Scientists have been able to determine the well examined fossil of Archaeopteryx lithographica, which was once considered flightless – is actually a separate species of Archaeopteryx that could fly.
Using synchrotron-radiation microtomography, the world’s most powerful X-ray machine, researchers were able to spot conflated skull bones, furcula with a knob like extension, coracoid – one of the bones of the shoulder-girdle, fused bones of the wrists, suggesting the fossil belong to a better flyer than all Archaeopteryx specimens.
It has been named Archaeopteryx albersdoerferi and it’s the world’s first flying bird.
Courtesy of The Conversation:
How we discovered a new species of the ‘missing link’ between dinosaurs and birds
By John Nudds, Senior Lecturer in Palaeontology, University of Manchester
Perhaps one of the world’s best known fossils is Archaeopteryx. With its beautifully preserved feathers, it has long been regarded as the first bird in the fossil record, and is often called “the icon of evolution“. Only a handful of specimens have ever been found, its elusivity adding to its fascination.
But was it really the first bird – and could it really fly?
Given that we now know birds descended from dinosaurs, was Archaeopteryx actually just another small dinosaur with a feathery covering?
My colleagues and I had the rare opportunity to examine an Archaeopteryx skeleton using one of the world’s most powerful synchrotrons, a type of particle accelerator rather like an X-ray machine but ten thousand billion times brighter than those in a hospital.
We were able to see inside the rock and uncover fragments of bone that had never been seen before. What we discovered surprised us: this was an entirely new species of Archaeopteryx.
The first Archaeopteryx fossil was uncovered in the Jurassic limestones of Bavaria, in the summer of 1861, just two years after the publication of Darwin’s Origin of Species. It appeared to be one of Darwin’s predicted “missing links”, the link between reptiles and birds, specifically between dinosaurs and birds.
It certainly looked like a bird, with delicately preserved feathers on its wings and a fan-shaped tail. It also had a wishbone or “furcula”, just like you find in a roast chicken. And both of these features were thought at the time only to occur in birds.
But Archaeopteryx also had some very reptilian features – a long, bony tail, and a jaw filled with very sharp teeth – and seemed to be part way between the two groups of animals.
A second specimen was found in 1876 but Archaeopteryx fossils have generally remained elusive and we still have discovered only 12 specimens. One of these has been lost and several others are fragments.
Despite more than 150 years of study, we still have much to discover about this primitive bird. Much of the controversy surrounds the question of whether Archaeopteryx could fly, the consensus being that it was at best a “feeble flapper“.
The eighth specimen to be discovered was one of the least well-known. It was found by a private collector in a quarry near Daiting in Bavaria, Germany, in the early 1990s, and changed hands several times before being sold on cheaply to another private collector in the belief that it was a common pterosaur.
It is rumoured that the finder, on realising what he had done, threw himself off the top of the quarry, as these specimens can change hands for millions of dollars.
The new owner, perhaps feeling guilty, was very secretive about his purchase, and the scientific community was unaware of this specimen until 1996 (hence its nickname, “the phantom”) when a cast of the specimen was shown briefly at the Naturkundemuseum in Bamberg, Germany.
Then, in 2009, dinosaur hunter Raimund Albersdörfer, also from Bavaria, purchased the specimen and in 2011 made it available to our research team for scientific study.
It is not well-preserved and we nicknamed it “the ugly bird”, for the bones had become disconnected after it died and were jumbled together and crushed. The lower half of the body was missing completely.
But we took it to Grenoble, to the European Synchrotron Radiation Facility(ESRF), where we were able to perform a virtual dissection of the skeleton, and piece together fragments of bones that had been broken when the animal died 150 million years ago.
All of the specimens of Archaeopteryx had been classified as a single species, Archaeopteryx lithographica, but this one seemed to be different.
It had also been collected from a different layer in the rock record than the others, which had all come from the well-known Solnhofen Formation. Our specimen was collected from the Moernsheim Formation, which lies above the Solnhofen Formation and is considered to be around half a million years younger.
Closer to birds
We first noticed that the skull bones were fused together. Then we spotted that the furcula had a knob-like extension, which in modern birds is an attachment for the powerful flight muscles.
Neither of these features were seen in Archaeopteryx lithographica. An expanded opening in one of the bones of the shoulder-girdle (called the coracoid) suggested that a large nerve passed through this bone, again suggesting a more powerful wing stroke.
But our biggest surprise was when we noticed that the bones of the wrist were fused together – another feature of modern birds known as the “carpo-metacarpus”. This provided a rigid structure that would have allowed the wings to make a powerful downbeat.
Archaeopteryx lithographica possessed instead the flexible wrist seen in its dinosaur ancestors. It was obvious that our specimen was showing many of the characteristics seen in modern flying birds that were not seen in the “feebly flapping” Archaeopteryx lithographica.
We had discovered a species new to science, and we named it Archaeopteryx albersdoerferi after its owner who had rescued it from obscurity.
Whenever a missing link is discovered, this merely creates two further missing links: what came before, and what came after. In this case, what came before Archaeopteryx was discovered in 1996 with the description of feathered dinosaurs in China.
Our new species is what came after. It confirms Archaeopteryx as the first bird and not just one of a number of feathered theropod dinosaurs, as some researchers have suggested recently. Our research puts Archaeopteryx back on its perch as the first bird.
The study has been published in the journal Historical Biology
Dinosaurs have much birdlike behavior unlike reptile/lizzards as previously thought. Not gray, brown, black lizzqards but brightly colored like birds probably to attract mates and for distinction identifying each other as herd (like mammals) members. Evidence also of protecting and defending egg nests and offspring like birds.