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The avian nature of the brain and inner ear of Archaeopteryx

Author

Listed:
  • Patricio Domínguez Alonso

    (Universidad Complutense de Madrid, Ciudad Universitaría)

  • Angela C. Milner

    (The Natural History Museum)

  • Richard A. Ketcham

    (High-resolution X-ray CT Facility)

  • M. John Cookson

    (University of Hertfordshire)

  • Timothy B. Rowe

    (1 University Station C1110, University of Texas at Austin)

Abstract

Archaeopteryx, the earliest known flying bird (avialan) from the Late Jurassic period, exhibits many shared primitive characters with more basal coelurosaurian dinosaurs (the clade including all theropods more bird-like than Allosaurus)1, such as teeth, a long bony tail and pinnate feathers2. However, Archaeopteryx possessed asymmetrical flight feathers on its wings and tail, together with a wing feather arrangement shared with modern birds. This suggests some degree of powered flight capability3 but, until now, little was understood about the extent to which its brain and special senses were adapted for flight. We investigated this problem by computed tomography scanning and three-dimensional reconstruction of the braincase of the London specimen of Archaeopteryx. Here we show the reconstruction of the braincase from which we derived endocasts of the brain and inner ear. These suggest that Archaeopteryx closely resembled modern birds in the dominance of the sense of vision and in the possession of expanded auditory and spatial sensory perception in the ear. We conclude that Archaeopteryx had acquired the derived neurological and structural adaptations necessary for flight. An enlarged forebrain suggests that it had also developed enhanced somatosensory integration with these special senses demanded by a lifestyle involving flying ability4.

Suggested Citation

  • Patricio Domínguez Alonso & Angela C. Milner & Richard A. Ketcham & M. John Cookson & Timothy B. Rowe, 2004. "The avian nature of the brain and inner ear of Archaeopteryx," Nature, Nature, vol. 430(7000), pages 666-669, August.
  • Handle: RePEc:nat:nature:v:430:y:2004:i:7000:d:10.1038_nature02706
    DOI: 10.1038/nature02706
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    Cited by:

    1. Soichiro Kawabe & Seiji Matsuda & Naoki Tsunekawa & Hideki Endo, 2015. "Ontogenetic Shape Change in the Chicken Brain: Implications for Paleontology," PLOS ONE, Public Library of Science, vol. 10(6), pages 1-16, June.
    2. Ricardo Araújo & Vincent Fernandez & Richard D Rabbitt & Eric G Ekdale & Miguel T Antunes & Rui Castanhinha & Jörg Fröbisch & Rui M S Martins, 2018. "Endothiodon cf. bathystoma (Synapsida: Dicynodontia) bony labyrinth anatomy, variation and body mass estimates," PLOS ONE, Public Library of Science, vol. 13(3), pages 1-27, March.
    3. Logan King & Qi Zhao & David L. Dufeau & Soichiro Kawabe & Lawrence Witmer & Chang-Fu Zhou & Emily J. Rayfield & Michael J. Benton & Akinobu Watanabe, 2024. "Endocranial development in non-avian dinosaurs reveals an ontogenetic brain trajectory distinct from extant archosaurs," Nature Communications, Nature, vol. 15(1), pages 1-10, December.

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