Life reconstruction of Kunbarrasaurus ieversi. Image © Australian Geographic - only to be used in reference to this story.
Life reconstruction of Kunbarrasaurus ieversi. Image © Australian Geographic - only to be used in reference to this story.
17 January 2016

It has a parrot-like beak, bones in its skin and an inner ear similar to a turtle - University of Queensland experts discuss Kunbarrasaurus, Australia’s newest dinosaur.

The skeleton of Kunbarrasaurus (koon-ba-rah-sore-rus) was discovered in 1989, but new research from a team led by University of Queensland experts has revealed the dinosaur is a distinctly different species than previously thought.

UQ School of Biological Sciences PhD student Lucy Leahey said the fossil represented the most complete dinosaur so far discovered in Australia and one of the best-preserved ankylosaur fossils in the world.

“Ankylosaurs were a group of four-legged, herbivorous dinosaurs, closely related to stegosaurs,” Ms Leahey said.

“Like crocodiles, they had bones in their skin and are commonly referred to as ‘armoured’ dinosaurs.”

“When it was first studied back in the 1990s, the fossil was placed it in the same genus as Australia’s only other named ankylosaur, Minmi, which is based on some bones from Roma in south-western Queensland.”

Kunbarrasaurus from The University of Queensland on Vimeo.

The team’s research found the fossil was different to the Roma Minmi, and distinct enough from all other ankylosaurs to warrant a new name.

“Kunbarra is the word for ‘shield’ in the Mayi language of the Wunumara people from the Richmond area, and the species name honours the person who originally found the fossil, Mr Ian Ievers.  It means ‘Ievers’ shield lizard,” Ms Leahey said.

Australia's new dinosaur - Kunbarrasaurus ieversi

Research that started in 2007 involved careful preparation of the palate of the dinosaur at the Denver Museum of Nature and Science, along with CT scanning at the Mater Adult Hospital.

Professor Lawrence Witmer from the Ohio University Heritage College of Osteopathic Medicine used the information to create a 3D reconstruction of the brain, inner ear and nasal cavities, which can be viewed here.

“The CT reconstruction revealed that Kunbarrasaurus had a more complicated airway than other dinosaurs, but less so than ankylosaurs from the Northern Hemisphere,” Professor Witmer said. 

“The inner ear is proportionately enormous and unlike anything we have seen before in a dinosaur.

“It looks more like the inner ear of a Tuatara or a turtle.  Exactly what the consequences of this are we are still unsure.”

UQ’s Dr Steve Salisbury said the findings made it clear that the Kunbarrasaurus specimen should be considered as a new dinosaur.

“The sheep-sized herbivore formerly known as Minmi sp. is now known to have had a parrot-like beak, breathed through a nasal passage that looped back on itself, and had an inner ear more like a tuatara than a dinosaur,” he said.

“Our work has also revealed that Kunbarrasaurus is more primitive than the majority of other well-known ankylosaurs from North America and Asia.”

“It appears to represent an early, less heavily ‘armoured’ member of the group, close to the point at which the ankylosaurs diverged from the other main lineage of armoured dinosaurs, the stegosaurs.”

The skeleton of Kunbarrasaurus ieversi is on display at the Queensland Museum (Southbank).

The research is available online in the open access journal PeerJ.

Media: Lucy Leahey,, +61 435 867 827; Dr Steve Salisbury,, +61 7 3365 8548 or +61 407 788 660; Dr. Lawrence Witmer (Ohio, USA),, +1 740 591 7712.

Additonal images available for media use. Contact Katie Rowney,, +61 7 3365 3439.

Interactive 3D animations:

Animation of the skull in 3D showing bones of the skull, nasal cavity, and endosseous labyrinth of the inner ear