Lizard of Oz: Australia’s Biggest Dinosaur Discovered

Vlad Konstantinov, <span class="caas-xray-inline-tooltip"><span class="caas-xray-inline caas-xray-entity caas-xray-pill rapid-nonanchor-lt" data-entity-id="Scott_Hocknull" data-ylk="cid:Scott_Hocknull;pos:1;elmt:wiki;sec:pill-inline-entity;elm:pill-inline-text;itc:1;cat:Person;" tabindex="0" aria-haspopup="dialog"><a href="" data-i13n="cid:Scott_Hocknull;pos:1;elmt:wiki;sec:pill-inline-entity;elm:pill-inline-text;itc:1;cat:Person;" tabindex="-1" data-ylk="slk:Scott Hocknull;cid:Scott_Hocknull;pos:1;elmt:wiki;sec:pill-inline-entity;elm:pill-inline-text;itc:1;cat:Person;" class="link ">Scott Hocknull</a></span></span>, Eromanga Natural History Museum
  • Oops!
    Something went wrong.
    Please try again later.

Today, a new Aussie dinosaur is being welcomed into the fold. Our study, published in the journal PeerJ, documents Australotitan cooperensis—Australia’s largest dinosaur species ever discovered, and the largest land-dwelling species to have walked the outback.

Australotitan, or the “southern titan,” was a massive long-necked titanosaurian sauropod estimated to have reached 25–30 meters in length and 5–6.5 meters in height. It weighed the equivalent of 1,400 red kangaroos.

It lived in southwest Queensland between 92–96 million years ago, when Australia was attached to Antarctica, and the last vestiges of a once-great inland sea had disappeared.

The discovery of Australotitan is a major new addition to the “terrible lizards” of Oz.

<div class="inline-image__caption"><p>3D scanning technology allows researchers an unprecedented way to compare fossilized bones of enormous dinosaurs, and view these digital replicas virtually.</p></div> <div class="inline-image__credit">S. Hocknull & R. Lawrence, Queensland Museum</div>

3D scanning technology allows researchers an unprecedented way to compare fossilized bones of enormous dinosaurs, and view these digital replicas virtually.

S. Hocknull & R. Lawrence, Queensland Museum

Finding dinosaurs in Australia has been labeled an incredibly difficult task.

In outback Queensland, dinosaur sites are featureless plains. Compare that to many sites overseas, where mountain ranges, deep canyons, or exposed badlands of heavily-eroded terrain can help reveal the ancient layers of preserved fossilized bones.

Today, the area where Australotitan lived is oil, gas, and grazing country. Our study represents the first major step in documenting the dinosaurs from this fossil field.

The first bones of Australotitan were excavated in 2006 and 2007 by Queensland Museum and Eromanga Natural History Museum paleontologists and volunteers. We nicknamed this individual “Cooper” after the nearby freshwater lifeline, Cooper Creek.

After the excavation, we embarked on the long and painstaking removal of the rock that entombed Cooper’s bones. This was necessary for us to properly identify and compare each bone.

We needed to compare Cooper’s bones to all other species of sauropod dinosaur known from both Australia and overseas, to confirm our suspicions of a new species.

But traveling from collection to collection at various museums to compare hundreds of kilograms of fragile dinosaur bones was simply not possible. So instead, we used 3D digital scanning technology, which allowed us to virtually carry thousands of kilograms of dinosaur bones in one seven kilogram laptop.

These kinds of research projects have created a new opportunity for museums and researchers to share their amazing collections globally, with researchers and the public.

And thanks to two decades of effort by paleontologists, citizen scientists, regional not-for-profit museums, and local landowners, there has been a recent boom in Australian dinosaur discoveries.

Perhaps unsurprisingly, we found all four of the sauropod dinosaurs that lived in Australia between 96-92 million years ago (including Australotitan) were more closely related to one another than they were to other dinosaurs found elsewhere.

However, we couldn’t conclusively place any of these four related species together in the same place at the same time. This means they could have evolved through time to occupy very different habitats. It’s even possible they never met.

The Aussie species share relations with titanosaurians from both South America and Asia, suggesting they dispersed from South America (via Antarctica) during periods of global warmth.

Or, they may have island-hopped across ancient island archipelagos, which would eventually make up the present-day terrains of Southeast Asia and the Philippines.

<div class="inline-image__caption"><p>A sauropod trample zone (left) compared to a cattle trample (center) and elephant trample (right).</p></div> <div class="inline-image__credit">S. Hocknull & R. Lawrence, Queensland Museum & Eromanga Natural History Museum</div>

A sauropod trample zone (left) compared to a cattle trample (center) and elephant trample (right).

S. Hocknull & R. Lawrence, Queensland Museum & Eromanga Natural History Museum

Digitally capturing gigantic sauropod bones and fossil sites in 3D has led to some remarkable discoveries. Several of Cooper’s bones were found to be crushed by the footsteps of other sauropod dinosaurs.

What’s more, during Cooper’s excavation we uncovered another smaller sauropod skeleton—possibly a smaller Australotitan—trampled into a nearly 100 meter-long rock feature. We interpreted this to be a trample zone: an area of mud compressed underfoot by massive sauropods as they moved along a pathway, or at the edge of a waterhole.

Similar trampling features can be seen today around Australian billabongs, or waterholes in Africa where the largest plant-eaters, such as elephants and hippopotamuses, trample mud into a hard layer.

In the case of the hippopotamus, they cut channels through the mud to navigate between precious water and food sources. Life in Australia during the Cretaceous period can be pictured similarly, except super-sized.

In the present, out there in Australia’s dinosaur country, you might find yourself staring across a barren plain imagining what other secrets this world of long-lost giants will reveal.

Scott Hocknull is a senior curator of geosciences at Queensland Museum and honorary research fellow at the University of Melbourne, and Rochelle Lawrence is senior research assistant at Queensland Museum

Read more at The Daily Beast.

Get our top stories in your inbox every day. Sign up now!

Daily Beast Membership: Beast Inside goes deeper on the stories that matter to you. Learn more.