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Evolution of cortical geometry and its link to function, behaviour and ecology

Author

Listed:
  • Ernst Schwartz

    (Medical University of Vienna)

  • Karl-Heinz Nenning

    (Medical University of Vienna
    Center for Biomedical Imaging and Neuromodulation, Nathan Kline Institute)

  • Katja Heuer

    (Institut Pasteur, Université Paris Cité, Unité de Neuroanatomie Appliquée et Théorique)

  • Nathan Jeffery

    (University of Liverpool)

  • Ornella C. Bertrand

    (Institut Català de Paleontologia Miquel Crusafont, Universitat Autònoma de Barcelona Edifici ICTA-ICP, c/ Columnes s/n, Campus de la UAB, 08193 Cerdanyola del Vallès.
    University of Edinburgh, Grant Institute)

  • Roberto Toro

    (Institut Pasteur, Université Paris Cité, Unité de Neuroanatomie Appliquée et Théorique)

  • Gregor Kasprian

    (Medical University of Vienna)

  • Daniela Prayer

    (Medical University of Vienna)

  • Georg Langs

    (Medical University of Vienna
    Computer Science and Artificial Intelligence Lab, Massachusetts Institute of Technology)

Abstract

Studies in comparative neuroanatomy and of the fossil record demonstrate the influence of socio-ecological niches on the morphology of the cerebral cortex, but have led to oftentimes conflicting theories about its evolution. Here, we study the relationship between the shape of the cerebral cortex and the topography of its function. We establish a joint geometric representation of the cerebral cortices of ninety species of extant Euarchontoglires, including commonly used experimental model organisms. We show that variability in surface geometry relates to species’ ecology and behaviour, independent of overall brain size. Notably, ancestral shape reconstruction of the cortical surface and its change during evolution enables us to trace the evolutionary history of localised cortical expansions, modal segregation of brain function, and their association to behaviour and cognition. We find that individual cortical regions follow different sequences of area increase during evolutionary adaptations to dynamic socio-ecological niches. Anatomical correlates of this sequence of events are still observable in extant species, and relate to their current behaviour and ecology. We decompose the deep evolutionary history of the shape of the human cortical surface into spatially and temporally conscribed components with highly interpretable functional associations, highlighting the importance of considering the evolutionary history of cortical regions when studying their anatomy and function.

Suggested Citation

  • Ernst Schwartz & Karl-Heinz Nenning & Katja Heuer & Nathan Jeffery & Ornella C. Bertrand & Roberto Toro & Gregor Kasprian & Daniela Prayer & Georg Langs, 2023. "Evolution of cortical geometry and its link to function, behaviour and ecology," Nature Communications, Nature, vol. 14(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-37574-x
    DOI: 10.1038/s41467-023-37574-x
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    References listed on IDEAS

    as
    1. Andreas Wartel & Patrik Lindenfors & Johan Lind, 2019. "Whatever you want: Inconsistent results are the rule, not the exception, in the study of primate brain evolution," PLOS ONE, Public Library of Science, vol. 14(7), pages 1-15, July.
    2. Matthew F. Glasser & Timothy S. Coalson & Emma C. Robinson & Carl D. Hacker & John Harwell & Essa Yacoub & Kamil Ugurbil & Jesper Andersson & Christian F. Beckmann & Mark Jenkinson & Stephen M. Smith , 2016. "A multi-modal parcellation of human cerebral cortex," Nature, Nature, vol. 536(7615), pages 171-178, August.
    3. Susanne Shultz & Christopher Opie & Quentin D. Atkinson, 2011. "Stepwise evolution of stable sociality in primates," Nature, Nature, vol. 479(7372), pages 219-222, November.
    4. Robert A. Barton & Paul H. Harvey, 2000. "Mosaic evolution of brain structure in mammals," Nature, Nature, vol. 405(6790), pages 1055-1058, June.
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