Shrinking Dinosaurs Evolved into Flying Birds


TEHRAN (Tasnim) - Scientists revealed how massive, meat-eating, ground-dwelling dinosaurs evolved into agile flying birds: they just kept shrinking and shrinking, for over 50 million years.

In a new study published in the journal Science, scientists from the University of Southampton present a detailed family tree of dinosaurs and their bird descendants, which maps out this unlikely transformation.

They showed that the branch of theropod dinosaurs, which gave rise to modern birds, were the only dinosaurs that kept getting inexorably smaller.

"These bird ancestors also evolved new adaptations, such as feathers, wishbones and wings, four times faster than other dinosaurs," co-author Darren Naish, Vertebrate Palaeontologist at the University of Southampton said.

"Birds evolved through a unique phase of sustained miniaturisation in dinosaurs," explained lead author Associate Professor Michael Lee, from the University of Adelaide's School of Earth and Environmental Sciences and the South Australian Museum.

"Being smaller and lighter in the land of giants, with rapidly evolving anatomical adaptations, provided these bird ancestors with new ecological opportunities, such as the ability to climb trees, glide and fly. Ultimately, this evolutionary flexibility helped birds survive the deadly meteorite impact which killed off all their dinosaurian cousins."

"The dinosaurs most closely related to birds are all small, and many of them -- such as the aptly named Microraptor -- had some ability to climb and glide," co-author Gareth Dyke added.

The study examined over 1,500 anatomical traits of dinosaurs to reconstruct their family tree. The researchers used sophisticated mathematical modelling to trace evolving adaptions and changing body size over time and across dinosaur branches.

The study concluded that the branch of dinosaurs leading to birds was more evolutionary innovative than other dinosaur lineages. "Birds out-shrank and out-evolved their dinosaurian ancestors, surviving where their larger, less evolvable relatives could not," Lee noted.