Home Science Challenging Our Understanding – This 72 Million-Year-Old “Dragon” Terrorized Ancient Seas

Challenging Our Understanding – This 72 Million-Year-Old “Dragon” Terrorized Ancient Seas

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Challenging Our Understanding – This 72 Million-Year-Old “Dragon” Terrorized Ancient Seas

Mosasaur With Dorsal Fin

The Wakayama Soryu, a mosasaur discovered in Japan and comparable in size to a great white shark, lived 72 million years ago with unique features like elongated rear flippers and a shark-like dorsal fin. This significant find, named Megapterygius wakayamaensis, challenges previous assumptions about mosasaur swimming and hunting behaviors (Artist’s concept). Credit: SciTechDaily.com

The Wakayama Soryu, a newly described mosasaur known as the “blue dragon,” possessed a shark-like dorsal fin.

Researchers have detailed a mosasaur from Japan, comparable in size to a great white shark, that dominated the Pacific waters 72 million years ago.

The extended length of its rear flippers likely enhanced propulsion, working in tandem with its elongated finned tail. Unlike other mosasaurs or large extinct marine reptiles, this species possessed a shark-like dorsal fin that would have helped it turn quickly and with precision in the water.

University of Cincinnati Associate Professor Takuya Konishi and his international co-authors described the mosasaur and placed it in a taxonomic context in the Journal of Systematic Palaeontology.

The mosasaur was named for the place where it was found, Wakayama Prefecture. Researchers call it the Wakayama Soryu, which means blue dragon. Dragons are creatures of legend in Japanese folklore, Konishi said.

Wakayama Soryu

The Wakayama Soryu (Blue Dragon) was a mosasaur the size of a great white shark that lived 72 million years ago off what is now Japan. Credit: Takumi

“In China, dragons make thunder and live in the sky. They became aquatic in Japanese mythology,” he said.

Unique Features and Classification Challenges

The specimen was discovered along the Aridagawa River in Wakayama by co-author Akihiro Misaki in 2006. The specimen is the most complete skeleton of a mosasaur ever found in Japan or the northwestern Pacific, Konishi said.

“In this case, it was nearly the entire specimen, which was astounding,” Konishi said.

He has dedicated his career to studying these ancient marine reptiles. But the Japanese specimen has unique features that defies simple classification, he said. Its rear flippers are longer than its front ones. These enormous flippers are even longer than its crocodile-like head, which is unique among mosasaurs.

“I thought I knew them quite well by now,” Konishi said. “Immediately it was something I had never seen before.”

Takuya Konishi

University of Cincinnati associate professor Takuya Konishi has studied mosasaurs and other prehistoric animals for more than 15 years. Credit: Joseph Fuqua II

Apex Predators of the Prehistoric Oceans

Mosasaurs were apex predators in prehistoric oceans from about 100 million years ago to 66 million years ago. They were contemporaries of Tyrannosaurus rex and other late Cretaceous dinosaurs that ruled the Earth. Mosasaurs were victims of the same mass extinction that killed off nearly all dinosaurs when an asteroid struck what is now the Gulf of Mexico.

Researchers placed the specimen in the subfamily Mosasaurinae and named it Megapterygius wakayamaensis to recognize where it was found. Megapterygius means “large winged” in keeping with the mosasaur’s enormous flippers.

Konishi said those big paddle-shaped flippers might have been used for locomotion. But that type of swimming would be extraordinary not only among mosasaurs but among virtually all other animals.

“We lack any modern analog that has this kind of body morphology — from fish to penguins to sea turtles,” he said. “None has four large flippers they use in conjunction with a tail fin.”

Researchers speculated that the large front fins might have helped with rapid maneuvering while its large rear fins might have provided pitch to dive or surface. And presumably like other mosasaurs, its tail would have generated powerful and fast acceleration as it hunted fish.

“It opens a whole can of worms that challenges our understanding of how mosasaurs swim,” Konishi said.

Reference: “A new derived mosasaurine (Squamata: Mosasaurinae) from south-western Japan reveals unexpected postcranial diversity among hydropedal mosasaurs” by Takuya Konishi, Masaaki Ohara, Akihiro Misaki, Hiroshige Matsuoka, Hallie P. Street and Michael W. Caldwell, 11 December 2023, Journal of Systematic Palaeontology.
DOI: 10.1080/14772019.2023.2277921

The study was funded by NSERC.

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