Science

Iguana-sized cousin to the dinosaurs discovered in Antarctica

Researchers have discovered an iguana-sized dinosaur cousin that roamed Antarctica 250 million years ago.

Antarctanax shackletoni was a carnivore that ate bugs and small mammals

The Antarctanax shackletoni, is seen here in this artist's illustration, near a river bank in what is now Antarctica. (Adrienne Stroup/Field Museum)

Imagine you're walking through a lush forest, trees stretching into the sky, scrub bushes dotting the landscape with the soft sound of a stream gurgling nearby.

This is Antarctica.

It's not the Antarctica we know today, but the one that existed 250 million years ago. Now, researchers have discovered an iguana-sized dinosaur cousin that once roamed the lush forested area.

Meet Antarctanax shackletoni, an archosaur, an early relative of dinosaurs and crocodiles. Based on their fossil findings, researchers believe Antarctanax was a lizard-sized carnivore that ate bugs, early mammals and amphibians.

The vertebrae and a humerus of Antarctanax is seen here in this well preserved sample collected from the site. (Brandon Peecook/Field Museum)

While other archosaurs have been found, lead author of the paper published in the Journal of Vertebrate Paleontology Brandon Peecook said that Antarctanax is particularly special.

Roughly two million years before the appearance of Antarctanax, Earth underwent its greatest mass extinction event. More than 90 per cent of all animal life was wiped out.

There is little evidence to suggest many archosaurs existed before the mass extinction, during the geological time period known as the Permian. However, in the following period — the early Triassic — they thrived. 

"They're really hard to find in the Permian [period]. We really have a poor record of them," said Peecook. "That's probably because they weren't that common."

After the extinction, he said the creatures were found in: Australia, Antarctica, South America, Africa, Europe and China. "Everywhere there's early Triassic rock, they're there. In abundance."

This new discovery — as well as some earlier fossils found — is teaching paleontologists that Antarctica was home to some very unique life.

Roughly 300 million years ago, there was just one supercontinent on Earth, called Pangea. About 200 million years ago, it began to break apart.

Scientists had once thought that because life evolved and thrived on this supercontinent that the fossil records would show the same animals right around the globe. But that's not quite the case.

"The prevailing thought in the literature was what you found in Antarctica is a subset of what you'd find elsewhere because everything was connected," said Peecook. "But the more work we've done … there's a lot of very unique life forms in Antarctica."

Antarctic paleontology

It's not exactly typical to think of paleontology being done in what people often think of as a frozen wasteland. But fossils have been found in Antarctica going back to the 1970s.

So where exactly does one look for fossils in a region known for bitter cold and snow?

"There are only two places: on the coast of the continent there are islands, and the rocks there are 60 million years old or younger," said Peecook. "The only other place is up in the very middle where there is this mountain range, the Transantarctic Mountains that just pop above the ice in intervals just like jagged peaks going down in a line."

Brandon Peecook prospecting for Triassic vertebrate fossils at Coalsack Bluff, a famous site in Antarctic paleontology. (Roger Smith)

So in December 2010 and January 2011 — summer in the southern hemisphere — Peecook and his team ventured to the region to do some digging. Helicopters had to take them to different locations. The weather wasn't too bad, he said, with temperatures reaching just below 0 C, though there were a couple of times the temperature felt like –40 C with the wind chill. Still, it was worth it, he said.

Peecook is looking forward to seeing more paleontology work undertaken by his peers in the region, or perhaps even returning himself. It's a unique area that begs to be explored, he said.

"It's a little more exciting than you might have expected."

ABOUT THE AUTHOR

Nicole Mortillaro

Senior Science Reporter

Based in Toronto, Nicole covers all things science for CBC News. As an amateur astronomer, Nicole can be found looking up at the night sky appreciating the marvels of our universe. She is the editor of the Journal of the Royal Astronomical Society of Canada and the author of several books. In 2021, she won the Kavli Science Journalism Award from the American Association for the Advancement of Science for a Quirks and Quarks audio special on the history and future of Black people in science. You can send her story ideas at [email protected].