Skull and brain of a 300-million-year-old chimaeroid fish revealed by synchrotron holotomography.

Publication Type:Journal Article
Year of Publication:2009
Authors:A. Pradel, Langer, M., Maisey, J. G., Geffard-Kuriyama, D., Cloetens, P., Janvier, P., Tafforeau, P.
Journal:Proc Natl Acad Sci U S A
Volume:106
Issue:13
Pagination:5224-8
Date Published:2009 Mar 31
ISSN:1091-6490
Keywords:Animals, Brain, Fishes, Fossils, Kansas, Oklahoma, Phylogeny, Skull, X-Ray Microtomography
Abstract:

Living cartilaginous fishes, or chondrichthyans, include numerous elasmobranch (sharks and rays) species but only few chimaeroid (ratfish) species. The early history of chimaeroids, or holocephalans, and the modalities of their divergence from elasmobranchs are much debated. During Carboniferous times, 358-300 million years (Myr) ago, they underwent a remarkable evolutionary radiation, with some odd and poorly understood forms, including the enigmatic iniopterygians that were known until now from poorly informative flattened impressions. Here, we report iniopterygian skulls found preserved in 3 dimensions in approximately 300-Myr-old concretions from Oklahoma and Kansas. The study was performed by using conventional X-ray microtomography (muCT), as well as absorption-based synchrotron microtomography (SR-muCT) [Tafforeau P, et al. (2006) Applications of X-ray synchrotron microtomography for non-destructive 3D studies of paleontological specimens. Appl Phys A 83:95-202] and a new holotomographic approach [Guigay P, Langer M, Boistel R, Cloetens P (2007) Mixed transfer function and transport of intensity approach for phase retrieval in the Fresnel region. Opt Lett 32:1617-1619], which revealed their peculiar anatomy. Iniopterygians also share unique characters with living chimaeroids, suggesting that the key chimaeroid skull features were already established 300 Myr ago. Moreover, SR-muCT of an articulated skull revealed a strikingly brain-shaped structure inside the endocranial cavity, which seems to be an exceptional case of soft-tissue mineralization of the brain, presumably as a result of microbially induced postmortem phosphatization. This was imaged with exceptional accuracy by using holotomography, which demonstrates its great potential to image preserved soft parts in dense fossils.

DOI:10.1073/pnas.0807047106
Alternate Journal:Proc. Natl. Acad. Sci. U.S.A.
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