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Images of a fish fossil, focused on the cranium
Four panels showing: a photo of the specimen, a radiograph of the specimen, a tomogram (slice) of the specimen, and a 3D model of the specimen.
Alice Clement, Flinders University

Ancient Fish Had Brain Similar to Eventual Land-Based Descendants

New research on ancient fish fossils provides insights into emergence of tetrapods

Flinders University

Sophisticated CT scanning of the cranium of an Australian fish fossil has given new insights to explain how fish first left the water to invade land about 370 million years ago.

Supported by the Australian Research Council and international experts, the new research led by Flinders University paleontologists studied Cladarosymblema narrienense, a 330-million-year-old fish from the Carboniferous Period found in Queensland, which is an ancestor of the first land animals or four-limbed vertebrate tetrapods.

C. narrienense is a type of “megalichthyid” fish, a group that existed from the Devonian-to-Permian periods, typically living in freshwater environments, and they were large, predatory animals. Through scanning the fossil, researchers found evidence this fish had a brain similar to its eventual terrestrial descendants, compared to the brains of other fishes that remained living in water.

“This fish from Queensland is one of the best preserved of its kind in the entire world, in perfect 3D shape, which is why we chose to work on it,” says professor John Long, strategic professor in paleontology at Flinders University.

While this fish was first described in 1995, by Long and others who had earlier explored and excavated the Queensland fossil site, parts of its anatomy have remained unknown—although using Australia’s largest cabinet CT scanner, located at Flinders University’s Tonsley campus, as well as the Australian Synchrotron in Melbourne, has allowed researchers to unlock new data from this fossil.

New information obtained from often unseen internal bones has been revealed in these scans—particularly in the gill arch skeleton, the shoulder girdle, and the palate bones (the upper mouth roof area).

“This helps us to understand the functional morphology and relationships of Cladarosymblema,” says Dr. Alice Clement, lead author of the new paper and part of the Flinders Palaeontology Group.

“Additionally, a cranial endocast (mold of the internal cavity of this fish’s unusually large skull) gives clues as to the shape of the brain of this animal. The area for the pituitary gland (so-called the master gland) is relatively large, suggesting a significant role in regulating various important endocrine glands.”

The researchers conducted a phylogenetic analysis, which confirms that the megalichthyid fish form a monophyletic group (a natural clade). C. narrienense is found to be one of the more derived members of the group.

- This press release was provided by Flinders University