Reconstructing the origin and early evolution of the snake brain

Macrì, Simone; Aalto, Ida-Maria; Allemand, Rémi; Di-Poï, Nicolas

doi:10.1126/sciadv.adi6888

Sci. Adv.

2023

DOI: 10.1126/sciadv.adi6888

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Reconstructing the origin and early evolution of the snake brain

Simone Macrì,

Ida-Maria Aalto,

Rémi Allemand

et al.

Abstract: Snakes represent one-eighth of terrestrial vertebrate diversity, encompassing various lifestyles, ecologies, and morphologies. However, the ecological origins and early evolution of snakes are controversial topics in biology. To address the paucity of well-preserved fossils and the caveats of osteological traits for reconstructing snake evolution, we applied a different ecomorphological hypothesis based on high-definition brain reconstructions of extant Squamata. Our predictive models revealed a burrowing life… Show more

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2024

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Cited by 3 publications

References 87 publications

(154 reference statements)

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The SmARTR pipeline: A modular workflow for the cinematic rendering of 3D scientific imaging data

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Can all snakes swim? A review of the evidence and testing species across phylogeny and morphological diversity

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Herrel,

Godoy-Diana

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Adaptation and innovation in darter fish cranial musculature (Etheostomatinae: Percidae): insights from diceCT

Arbour,

Ramazan,

Clark

2024

Zoological Journal of the Linnean Society

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Fish skulls are often highly kinetic, with multiple linkage and lever systems powered by a diverse suite of muscles. Comparative analysis of the evolution of soft-tissue structures in the fish skull is often limited under traditional approaches, while new imaging techniques like diceCT (diffusible iodine-based contrast-enhanced computed tomography) allow for high-resolution imaging of muscles in situ. Darters (Percidae: Etheostomatinae) are a diminutive and species-rich clade of lotic freshwater fishes, which show diverse head shapes believed to be associated with different foraging strategies. We used diceCT to sample all major cranial adductors and abductors responsible for movement of the jaw, hyoid, operculum, and suspensorium from 29 species. We applied comparative phylogenetic approaches to analyse the evolutionary trends in muscle size across the clade. We found two major patterns: (i) darter cranial muscles show fundamental trade-offs relating to investment in musculature, as well as buccal expansion vs. biting attributes; early divergence in muscle size appears to be associated with shifts in habitat use and foraging; (ii) darter adductor mandibulae show high variation in architecture (fibre orientation, divisions). This study highlights how new imaging techniques can provide novel insights into the anatomy of even well-sampled/represented clades.

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Reconstructing the origin and early evolution of the snake brain

Cited by 3 publications

References 87 publications

The SmARTR pipeline: A modular workflow for the cinematic rendering of 3D scientific imaging data

The SmARTR pipeline: A modular workflow for the cinematic rendering of 3D scientific imaging data

Can all snakes swim? A review of the evidence and testing species across phylogeny and morphological diversity

Adaptation and innovation in darter fish cranial musculature (Etheostomatinae: Percidae): insights from diceCT

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