Australia's 'upside down' dinosaur age had two giant predators, 120 million-year-old fossils reveal
Live Science News, By Patrick Pester Feb 26, 2025
Researchers in Australia have discovered fossils of two enormous predators that lived alongside one another, upending ideas about how the ancient ecosystem operated down under 120 million years ago. This cache of fossils included the oldest large megaraptor ever found.
Megaraptorids were a group of fearsome predators in the Cretaceous period (145 million to 66 million years ago). They lived in the ecosystems of Australia and South America, which were joined together via Antarctica as part of a massive southern landmass called Gondwana.
Study lead-author Jake Kotevski, a paleontology doctoral candidate at the Museums Victoria Research Institute and Monash University in Australia, described megaraptorids as a "hands first predator" with muscular forearms and long, curved claws for catching prey — they effectively bring their prey in for a "hug of death," he said in a video released by Museums Victoria.
VIDEO LINK: https://youtu.be/zjA-BpYM04c?si=E4Vaa28qBi9r0aEc
The fossils discovered by Kotevski and his colleagues belonged to an unspecified 120 million-year-old megaraptorid that was 20 to 23 feet (6 to 7 meters) long — making it one of the largest theropods (a bipedal group of mostly meat-eating dinosaurs) ever discovered in Australia. It also predates megaraptorids in South America by around 30 million years.
In the new study, published Feb. 19 in the Journal of Vertebrate Paleontology, researchers also identified fossils from another group of large, predatory dinosaurs called Carcharodontosauria, which are also found in South America but have never been identified in Australia before.
The carcharodontosaur fossils suggest that in Australia, these dinosaurs grew up to 13 feet (4 m) long, which is significantly shorter than their counterparts in South America, which grew up to 43 feet (13 m).
In other words, the roles of the two predatory dinosaurs seem to have been reversed in Victoria, with megaraptorids acting as the larger apex predators and carcharodontosaurs acting as smaller, secondary predators. Australia's unique Cretaceous ecosystem therefore had an "upside-down" dynamic, according to a statement released by Museums Victoria.
Southern Australia was close enough to the South Pole that it was within the Antarctic Circle during the Cretaceous, although the region was much warmer then than it is today.
The team identified the fossils, collected from the upper Strzelecki rock formation on the coastline of Victoria in southern Australia between 1988 and 2022, with modern 3D imaging techniques, including micro-computed tomography. The technique involves taking X-rays of an object as it rotates 360 degrees so that it can be studied in greater detail.
The discoveries add to evidence that dinosaurs were traveling across Antarctica to move between South America and Australia during the middle of the Cretaceous, according to the study. However, Kotevski noted that researchers still have a lot more to learn about the Australian dinosaur ecosystem.
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