Tag Archives: Coelacanths

Triassic Coelacanths: Did They Use Their Lungs to Sense Ocean Sounds?

Posted on by
Reply

New research on two 240-million-year-old coelacanth fossils reveals an intriguing sensory adaptation: ossified lungs that transmit sound to the inner ear, shedding light on how early vertebrates interpreted their environment.

Reconstruction of a Triassic coelacanth. This schematic illustrates the connection between ossified lungs and the inner ear, enabling underwater hearing. Image credit: A. Beneteau & L. Cavin, MHNG.

“Coelacanths are lobe-finned fish with a rich fossil history exceeding 400 million years, offering crucial insights into vertebrate anatomical evolution,” said Professor Lionel Cavin, a paleontologist affiliated with the Natural History Museum of Geneva and the University of Geneva.

“Once believed extinct, the genus Latimeria remains, currently including two recognized species.”

“Fossilized coelacanths possess a series of large, puzzling ossified plates arranged in a tiled pattern within their body cavities, surrounding an internal area that likely contained gas during life.”

In a groundbreaking study, paleontologists investigated the lungs and inner ear anatomy of two Middle Triassic coelacanth species: Glauria Branchiodonta and Loreleia eusingulata from eastern France.

By utilizing a particle accelerator at the European Synchrotron Radiation Facility, researchers uncovered an exceptionally well-preserved ossified lung featuring wing-like bony structures at its tip.

Simultaneously, examinations of modern coelacanth embryos revealed canals linking auditory and balance organs on either side of the skull.

By synthesizing these findings, researchers propose that these structures create a comprehensive sensory system.

Sound waves captured by the ossified lungs are believed to be conveyed through this channel to the inner ear, enhancing the animal’s underwater auditory perception.

“Our hypothesis draws parallels with contemporary freshwater fish like carp and catfish,” explained Luigi Manueli, a PhD student at the Geneva Museum of Natural History and the University of Geneva.

“In these fish, a structure known as the Weber apparatus links the swim bladder to the inner ear, facilitating the detection of underwater sounds.”

“Air pockets in the swim bladder are vital for sensing these waves; otherwise, they would go unnoticed by the fish.”

“This hearing capability likely diminished as modern coelacanth ancestors adapted to deep-sea settings, leading to lung degeneration and the obsolescence of this system,” noted Professor Cavin.

“Remarkably, some structures related to the inner ear remain preserved.”

“These anatomical remnants offer valuable insights into the evolutionary trajectory of these fish and potentially our own aquatic ancestors.”

For more details, refer to the study published in the Journal on February 14, 2026, in Communication Biology.

_____

L. Manueli et al. 2026. The dual functions of coelacanth lungs: breathing and hearing. Commun. Biol. 9, 400; doi: 10.1038/s42003-026-09708-6

Source: www.sci.news

Paleontologists Discover Several New Fossil Coelacanths

Posted on by
Reply

Recently discovered species of coelacanth, which thrived at the end of the Triassic period around 200 million years ago, have been identified from museum specimens excavated in the UK over a century and a half ago.

Reconstruction of the large Mausonian Coelacanth artist from the Lezians of England. Image credit: Daniel Phillips.

Coelacanths are unique fish that first appeared in the early Devonian epoch fossil record approximately 419 million years ago.

Since the Paleozoic and Mesozoic periods, over 175 fossil coelacanth species have been identified.

During the Mesozoic Era, these fish exhibited significant diversification, with some species developing unusual body shapes.

However, at the close of the Cretaceous period, around 66 million years ago, they inexplicably vanished from the fossil record.

It is believed that coelacanths went extinct due to a mass extinction event during the Cretaceous period. Nonetheless, in 1938, the first specimen of the living species Latimeria chalumnae was fortuitously captured in South Africa.

“Our team has encountered numerous fossils that were initially classified as small marine reptiles. Pachistrophius,” said Professor Mike Benton of the University of Bristol, who is a senior author of the study.

“Many Pachistrophius share peculiar similarities with coelacanth fossils, but we’ve traveled to collections nationwide and discovered that this misidentification has occurred repeatedly.”

“Notably, several of these specimens have been stored in museum facilities, including public collections, since the 1800s,” stated Jacob Quinn, a paleontologist at the University of Bristol.

“From four previous reports of coelacanths from the Triassic era in the UK, we identified more than 50 individuals.”

Paleontologists conducted X-ray scans of numerous specimens to verify their identification.

The specimens mainly belong to the extinct group Mawsoniidae of the coelacanth, while also being closely related to living fish.

“The materials we identified are isolated specimens, but we can see they originate from individuals of various ages, sizes, and species.”

Dr. David Whiteside, a paleontologist at the University of Bristol, remarked:

“Like modern coelacanths, these large fish are opportunistic predators, lurking along the seabed and likely preying on whatever they encountered, including small Pachistrophius marine reptiles, which have been misidentified as coelacanth fossils for decades.”

The study is set to be published in the Journal of Vertebrate Paleontology.

____

Jacob Quinn et al. 2025. British Triassic coelacanth fish. Journal of Vertebrate Paleontology 45: E2520921; doi: 10.1080/02724634.2025.2520921

Source: www.sci.news