Decoding mystery behind structure of birds' wings

Decoding mystery behind structure of birds' wings

NEW DELHI [Maha Media]: All flight-capable modern birds possess the propatagium, a specialised wing structure that is necessary for flight. This structure's evolutionary ancestry has long been unknown, but recent studies indicate that nonavian dinosaurs may have developed it. The conclusion, which fills certain knowledge gaps about the genesis of avian flight, comes from statistical analysis of arm joints preserved in fossils. For a long time now, we have known modern birds evolved from certain lineages of dinosaurs that lived millions of years ago. This has led researchers to look to dinosaurs to explain some of the features unique to birds, for example, feathers, bone structure and so on. But there's something special about the wings of birds in particular that piqued the interest of researchers at the University of Tokyo's Department of Earth and Planetary Science.

"At the leading edge of a bird's wing is a structure called the propatagium, which contains a muscle connecting the shoulder and wrist that helps the wing flap and makes bird flight possible," said Associate Professor Tatsuya Hirasawa. "It's not found in other vertebrates, and it's also found to have disappeared or lost its function in flightless birds, one of the reasons we know it's essential for flight. So, in order to understand how flight evolved in birds, we must know how the propatagium evolved. 

This is what prompted us to explore some distant ancestors of modern birds, theropod dinosaurs." Theropod dinosaurs, such as Tyrannosaurus rex and Velociraptor, had arms not wings. If scientists could find evidence of an early example of the propatagium in these dinosaurs, it would help explain how the modern avian branch of the tree of life transitioned from arms to wings. However, it's not so simple, as the propatagium is made up of soft tissues which do not fossilize well if at all, so direct evidence might not be possible to find. 

Instead, the researchers had to find an indirect way to identify the presence or lack of a propatagium in a specimen.

"The solution we came up with to assess the presence of a propatagium was to collect data about the angles of joints along the arm, or wing, of a dinosaur or bird," said Yurika Uno, a graduate student at Hirasawa's lab. "In modern birds, the wings cannot fully extend due to the propatagium, constraining the range of angles possible between connecting sections. If we could find a similarly specific set of angles between joints in dinosaur specimens, we can be fairly sure they too possessed a propatagium. And through quantitative analyses of the fossilized postures of birds and nondinosaurs, we found the telltale ranges of joint angles we hoped to." 

Based on this clue, the team found that the propatagium likely evolved in a group of dinosaurs known as the maniraptoran theropods, including the famous Velociraptor. This was backed up when the researchers identified the propatagium in preserved soft tissue fossils, including those of the feathered oviraptorosaurian Caudipteryx and winged dromaeosaurian Microraptor. All the specimens they found it in existed prior to the evolution of flight in that lineage.
 

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