Beijing:
Feathered dinosaurs may have learned to fly even before birds!
A new raptorial dinosaur fossil discovered in China with exceptionally long feathers has provided exciting insights into dinosaur flight, scientists say.
The 125-million-year-old dinosaur, named Changyuraptor yangi, was found in the Liaoning Province of northeastern China.
The fossil has a long feathered tail that scientists believe was instrumental for decreasing descent speed and assuring safe landings.
The newly discovered, remarkably preserved dinosaur sports a full set of feathers cloaking its entire body, including the extra-long tail feathers.
"At a foot in length, the amazing tail feathers of Changyuraptor are by far the longest of any feathered dinosaur," said Dr Luis Chiappe from the Natural History Museum of Los Angeles County (NHM).
Analyses of the bone micro-structure by Dr Anusuya Chinsamy from the University of Cape Town, South Africa, shows that the raptor was a fully grown adult, and tipping the scale at 4 kg, the four-foot-long Changyuraptor is the biggest of all four-winged dinosaurs.
These microraptorine dinosaurs are dubbed "four-winged" because the long feathers attached to the legs have the appearance of a second set of wings.
In fact, the long feathers attached to both legs and arms of these ancient predators have led researchers to conclude that the four-winged dinosaurs were capable of flying.
"Numerous features that we have long associated with birds in fact evolved in dinosaurs long before the first birds arrived on the scene," said co-author Dr Alan Turner of Stony Brook University, New York.
"This includes things such as hollow bones, nesting behaviour, feathers and possibly flight," Turner said.
How well these creatures used the sky as a thoroughfare has remained controversial. The new discovery explains the role that the tail feathers played during flight control.
For larger flyers, safe landings are of particular importance.
"It makes sense that the largest microraptorines had especially large tail feathers - they would have needed the additional control," added Dr Michael Habib, a researcher at the University of Southern California and a co-author of the paper.
The discovery of Changyuraptor consolidates the notion that flight preceded the origin of birds, being inherited by the latter from their dinosaurian forerunners.
"The new fossil documents that dinosaur flight was not limited to very small animals but to dinosaurs of more substantial size," said Chiappe.
"Clearly far more evidence is needed to understand the nuances of dinosaur flight, but Changyuraptor is a major leap in the right direction," said Chiappe.
The finding was published in the journal Nature Communications.