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Fossil evidence for a pharyngeal origin of the vertebrate pectoral girdle

Martin D. Brazeau (), Marco Castiello, Amin El Fassi El Fehri, Louis Hamilton, Alexander O. Ivanov, Zerina Johanson and Matt Friedman
Additional contact information
Martin D. Brazeau: Imperial College London
Marco Castiello: Imperial College London
Amin El Fassi El Fehri: Imperial College London
Louis Hamilton: Imperial College London
Alexander O. Ivanov: St Petersburg State University
Zerina Johanson: The Natural History Museum
Matt Friedman: The Natural History Museum

Nature, 2023, vol. 623, issue 7987, 550-554

Abstract: Abstract The origin of vertebrate paired appendages is one of the most investigated and debated examples of evolutionary novelty1–7. Paired appendages are widely considered as key innovations that enabled new opportunities for controlled swimming and gill ventilation and were prerequisites for the eventual transition from water to land. The past 150 years of debate8–10 has been shaped by two contentious theories4,5: the ventrolateral fin-fold hypothesis9,10 and the archipterygium hypothesis8. The latter proposes that fins and girdles evolved from an ancestral gill arch. Although studies in animal development have revived interest in this idea11–13, it is apparently unsupported by fossil evidence. Here we present palaeontological support for a pharyngeal basis for the vertebrate shoulder girdle. We use computed tomography scanning to reveal details of the braincase of Kolymaspis sibirica14, an Early Devonian placoderm fish from Siberia, that suggests a pharyngeal component of the shoulder. We combine these findings with refreshed comparative anatomy of placoderms and jawless outgroups to place the origin of the shoulder girdle on the sixth branchial arch. These findings provide a novel framework for understanding the origin of the pectoral girdle. Our evidence clarifies the location of the presumptive head–trunk interface in jawless fishes and explains the constraint on branchial arch number in gnathostomes15. The results revive a key aspect of the archipterygium hypothesis and help reconcile it with the ventrolateral fin-fold model.

Date: 2023
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DOI: 10.1038/s41586-023-06702-4

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