The oldest three-dimensionally preserved vertebrate neurocranium

Richard Dearden; Agnese Lanzetti; Sam Giles; Zerina Johanson; Andrew Jones; Stephan Lautenschlager; Emma Randle; Ivan Sansom

doi:10.1038/s41586-023-06538-y

The oldest three-dimensionally preserved vertebrate neurocranium

Richard Dearden^*, Agnese Lanzetti, Sam Giles, Zerina Johanson, Andrew Jones, Stephan Lautenschlager, Emma Randle, Ivan Sansom

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

The neurocranium is an integral part of the vertebrate head, itself a major evolutionary innovation^1,2. However, its early history remains poorly understood, with great dissimilarity in form between the two living vertebrate groups: gnathostomes (jawed vertebrates) and cyclostomes (hagfishes and lampreys)^2,3. The 100 Myr gap separating the Cambrian appearance of vertebrates^4,5,6 from the earliest three-dimensionally preserved vertebrate neurocrania⁷ further obscures the origins of modern states. Here we use computed tomography to describe the cranial anatomy of an Ordovician stem-group gnathostome: Eriptychius americanus from the Harding Sandstone of Colorado, USA⁸. A fossilized head of Eriptychius preserves a symmetrical set of cartilages that we interpret as the preorbital neurocranium, enclosing the fronts of laterally placed orbits, terminally located mouth, olfactory bulbs and pineal organ. This suggests that, in the earliest gnathostomes, the neurocranium filled out the space between the dermal skeleton and brain, like in galeaspids, osteostracans and placoderms and unlike in cyclostomes². However, these cartilages are not fused into a single neurocranial unit, suggesting that this is a derived gnathostome trait. Eriptychius fills a major temporal and phylogenetic gap in our understanding of the evolution of the gnathostome head, revealing a neurocranium with an anatomy unlike that of any previously described vertebrate.

Original language	English
Journal	Nature
Early online date	20 Sept 2023
DOIs	https://doi.org/10.1038/s41586-023-06538-y
Publication status	E-pub ahead of print - 20 Sept 2023

Bibliographical note

Acknowledgements:
Many thanks to B. Simpson and A. Stroup (FMNH) for providing specimen access and loan and to A. Neander (University of Chicago) and L. Martin-Silverstone (University of Bristol) for help with computed tomography scanning the specimen. We also thank D. Elliott and M. Coates for constructive discussion over the years and logistic help with the specimen. Thanks to L. Schnetz for assistance with Adobe Illustrator. This work was supported by the Leverhulme Trust project ‘Feeding without jaws—innovations in early vertebrates’. R.P.D. is at present supported by the Marie Skłodowska-Curie Action ‘DEADSharks’. Thanks to the Willi Hennig Society for making the program TNT available.

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Cite this

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title = "The oldest three-dimensionally preserved vertebrate neurocranium",

abstract = "The neurocranium is an integral part of the vertebrate head, itself a major evolutionary innovation1,2. However, its early history remains poorly understood, with great dissimilarity in form between the two living vertebrate groups: gnathostomes (jawed vertebrates) and cyclostomes (hagfishes and lampreys)2,3. The 100 Myr gap separating the Cambrian appearance of vertebrates4,5,6 from the earliest three-dimensionally preserved vertebrate neurocrania7 further obscures the origins of modern states. Here we use computed tomography to describe the cranial anatomy of an Ordovician stem-group gnathostome: Eriptychius americanus from the Harding Sandstone of Colorado, USA8. A fossilized head of Eriptychius preserves a symmetrical set of cartilages that we interpret as the preorbital neurocranium, enclosing the fronts of laterally placed orbits, terminally located mouth, olfactory bulbs and pineal organ. This suggests that, in the earliest gnathostomes, the neurocranium filled out the space between the dermal skeleton and brain, like in galeaspids, osteostracans and placoderms and unlike in cyclostomes2. However, these cartilages are not fused into a single neurocranial unit, suggesting that this is a derived gnathostome trait. Eriptychius fills a major temporal and phylogenetic gap in our understanding of the evolution of the gnathostome head, revealing a neurocranium with an anatomy unlike that of any previously described vertebrate.",

author = "Richard Dearden and Agnese Lanzetti and Sam Giles and Zerina Johanson and Andrew Jones and Stephan Lautenschlager and Emma Randle and Ivan Sansom",

note = "Acknowledgements: Many thanks to B. Simpson and A. Stroup (FMNH) for providing specimen access and loan and to A. Neander (University of Chicago) and L. Martin-Silverstone (University of Bristol) for help with computed tomography scanning the specimen. We also thank D. Elliott and M. Coates for constructive discussion over the years and logistic help with the specimen. Thanks to L. Schnetz for assistance with Adobe Illustrator. This work was supported by the Leverhulme Trust project {\textquoteleft}Feeding without jaws—innovations in early vertebrates{\textquoteright}. R.P.D. is at present supported by the Marie Sk{\l}odowska-Curie Action {\textquoteleft}DEADSharks{\textquoteright}. Thanks to the Willi Hennig Society for making the program TNT available.",

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AU - Lautenschlager, Stephan

AU - Randle, Emma

AU - Sansom, Ivan

N1 - Acknowledgements: Many thanks to B. Simpson and A. Stroup (FMNH) for providing specimen access and loan and to A. Neander (University of Chicago) and L. Martin-Silverstone (University of Bristol) for help with computed tomography scanning the specimen. We also thank D. Elliott and M. Coates for constructive discussion over the years and logistic help with the specimen. Thanks to L. Schnetz for assistance with Adobe Illustrator. This work was supported by the Leverhulme Trust project ‘Feeding without jaws—innovations in early vertebrates’. R.P.D. is at present supported by the Marie Skłodowska-Curie Action ‘DEADSharks’. Thanks to the Willi Hennig Society for making the program TNT available.

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N2 - The neurocranium is an integral part of the vertebrate head, itself a major evolutionary innovation1,2. However, its early history remains poorly understood, with great dissimilarity in form between the two living vertebrate groups: gnathostomes (jawed vertebrates) and cyclostomes (hagfishes and lampreys)2,3. The 100 Myr gap separating the Cambrian appearance of vertebrates4,5,6 from the earliest three-dimensionally preserved vertebrate neurocrania7 further obscures the origins of modern states. Here we use computed tomography to describe the cranial anatomy of an Ordovician stem-group gnathostome: Eriptychius americanus from the Harding Sandstone of Colorado, USA8. A fossilized head of Eriptychius preserves a symmetrical set of cartilages that we interpret as the preorbital neurocranium, enclosing the fronts of laterally placed orbits, terminally located mouth, olfactory bulbs and pineal organ. This suggests that, in the earliest gnathostomes, the neurocranium filled out the space between the dermal skeleton and brain, like in galeaspids, osteostracans and placoderms and unlike in cyclostomes2. However, these cartilages are not fused into a single neurocranial unit, suggesting that this is a derived gnathostome trait. Eriptychius fills a major temporal and phylogenetic gap in our understanding of the evolution of the gnathostome head, revealing a neurocranium with an anatomy unlike that of any previously described vertebrate.

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DO - 10.1038/s41586-023-06538-y

M3 - Article

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SN - 0028-0836

JO - Nature

JF - Nature

ER -

The oldest three-dimensionally preserved vertebrate neurocranium

Abstract

Bibliographical note

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