Bizarre dinosaur-bird hybrid soared over China 120 million years ago

A bizarre dinosaur-bird hybrid with a head like Tyrannosaurus Rex soared over China 120 million years ago, fossil analysis has revealed.

While the creature’s head was dinosaur-like, palaeontologists say its body was more in keeping with that of today’s birds.

They discovered the body print fossil, named Cratonavis zhui, during excavations in northern China, a region where prints of feathered dinosaurs and early birds have also been unearthed.

The unusual discovery is important because it could help to provide an insight into how modern birds evolved.

Peculiar: A bizarre dinosaur-bird hybrid which had a head like Tyrannosaurus Rex soared over China 120 million years ago, fossil analysis has revealed. Experts discovered the body print fossil, named Cratonavis zhui, during excavations in northern China (pictured)

WHAT WAS T. REX?

Tyrannosaurus rex was a species of bird-like, meat-eating dinosaur.

It lived between 68–66 million years ago in what is now the western side of North America.

They could reach up to 40 feet (12 metres) long and 12 feet (4 metres) tall.

More than 50 fossilised specimens of T. Rex have been collected to date.

The monstrous animal had one of the strongest bites in the animal kingdom.

An artist’s impression of T. Rex

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It was found in sedimentary rocks which formed about 120 million years ago during the Cretaceous period.

Experts led by palaeontologist Zhou Zhonghe, from the Chinese Academy of Sciences, carried out CT scans of the creature’s skull print and found that its shape was almost the same as that of dinosaurs like T.Rex, rather than being bird-like.

They believe that in the avian branches of the dinosaur family tree, Cratonavis sits between the reptile-like Archaeopteryx and the Ornithothoraces, which had already developed many of the traits of modern birds.

‘The primitive cranial features speak to the fact that most Cretaceous birds such as Cratonavis could not move their upper bill independently with respect to the braincase and lower jaw, a functional innovation widely distributed among living birds that contributes to their enormous ecological diversity,’ said fellow palaeontologist Zhiheng Li.

Previous studies have found similar half dinosaur, half bird creatures but what has not been established is the order in which evolutionary changes in shape, function and environment began to happen to lead to the modern birds we see today.

The Chinese researchers also found that Cratonavis had a surprisingly long scapula and first metatarsal, both of which are rarely seen in the fossils of other dino-ancestors to birds.

In terms of the metatarsal, this decrease in size as birds developed and is now entirely absent, while an elongated scapula has been observed previously in Cretaceous birds such as Yixianornis and Apsaravis.

Experts from the Chinese Academy of Sciences carried out CT scans of the creature’s skull print and found that its shape was almost the same as that of dinosaurs like T.Rex, rather than being bird-like. Pictured is an artist’s impression of the creature

It is an important discovery in Cratonavis because it suggests the species may have contributed to a biological experiment in flying behaviour.

Although Cratonavis would not have been able to fly, it hints at the gradual evolution from more of a land-based dinosaur to a bird capable of taking to the skies.

It also backs up previous research on the importance of evolutionary mosaicism in the early diversification of birds.

This is a scientific theory that traits can evolve independently from each other and at a different rate.

One of the lead authors, palaeontologist Min Wang, said: ‘The elongate scapula could augment the mechanical advantage of muscle for humerus retraction/rotation, which compensates for the overall underdeveloped flight apparatus in this early bird, and these differences represent morphological experimentation in volant behaviour early in bird diversification.’

The study has been published in the journal Nature Ecology & Evolution.

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WHAT IS MOSAIC EVOLUTION?

Mosaic evolution is a scientific theory that states traits can evolve independently from each other and at a different rate.

This phenomenon is also the reason not every ancestral species has the same morphological traits.

Another definition is the ‘evolution of characters at various rates both within and between species’.

It is a trend that can only be observed at the macro-scale and over thousands of years, as the evolution of different morphological traits can take hundreds of generations to manifest.

There are several known examples in nature.

These include:

The early evolution of bipedalism – walking on two legs – in an early hominid species took place well before there was any significant change in the skull, or brain size.
Evolution of the horse, in which the major changes took place at different times, not all simultaneously.
Sea turtles evolved beaks and shells at around the same time but completely independently. Some species had a beak but not a shell and vice versa.
This led to the modern-day species we see with both features.

This post first appeared on Dailymail.co.uk