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Huge flightless swan roamed the ancient seas with a cradle on its back

A fossilised leg bone found in Japan belonged to a prehistoric swan species with adaptations similar to several other water birds, including a duck-like bill and the feet of a loon
Artist’s reconstruction of the ancient Annakacygna swan
Gunma Museum of Natural History

A newly described bird from prehistoric Japan was an odd duck, so to speak. The enormous swan lived in the sea, sporting stubby wings that it possibly used to create a cradle on its back for offspring.

at Kyoto University and at the Gunma Museum of Natural History in Japan analysed a fossilised skeleton that was excavated in 2000 in the Usui river in central Japan. The riverbed’s marine deposits date back to the Miocene epoch more than 11 million years ago.

Comparing the skeleton to modern swans, the team identified it as a new genus and species, dubbed Annakacygna hajimei. A second, larger new species from the same genus was identified from a fossilised leg bone found along the nearby Kabura river in 1995 and named Annakacygna yoshiiensis.

The Annakacygna genus differs considerably from modern swans, with the two extinct species being flightless sea-dwellers with a suite of bizarre adaptations seemingly cobbled together from other water birds.

A. hajimei was the size of a modern black swan (Cygnus atratus), says Matsuoka. A. yoshiiensis, however, was about 30 per cent larger, on par with Trumpeter swans (Cygnus buccinator), the largest of North America’s swan species. But Annakacygna had a substantially heavier build than modern swans, with dense bones. The researchers think this more massive frame probably provided stability as the birds navigated choppy seas.

Annakacygna were also “head heavy”, with big, broad bills for filter-feeding surface plankton, says Matsuoka.

The swan’s short wings were unusual. The forearm bones were just over half the length of the upper arm bones. In modern swans, these bones are about the same length. The flightless bird’s fossilised bones possessed physical traces of highly developed muscles that, in today’s swans, are only engaged when folding the wings.

Flexible shoulder joints allowed the wings to stretch upwards along the back, but the wrist wasn’t able to flex much beyond a set angle. The muscles and joints of the wing may have helped produce flapping courtship displays, and when combined with the flexible, muscular tail arching upwards, the wings may also have made a cradle to transport hatchlings. Modern swans sometimes give cygnets “piggybacks” with similar positioning of the wings, but Annakacygna may have taken the behaviour to an extreme.

Such great specialisation in feeding and reproduction, processes critical for an organism’s survival and legacy, make Annakacygna the “ultimate bird”, says Matsuoka. Future research may uncover why the genus went extinct, he says.

“The fact that such an animal existed is the biggest surprise,” says Matsuoka.

Albert Chen at the University of Cambridge says ԲԲ첹ⲵԲ’s combination of anatomical features – such as its loon-like feet and duck-like bill – is unique among birds.

“These are some of the most remarkable fossil birds – indeed, among the most remarkable dinosaurs – to be named in recent times,” says Chen.

ڱԳ:Bulletin of the Gunma Museum of Natural History

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Topics: Animals / marine life