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In mammals, embryonic cranial development is modular and step-wise: The individual cranial bones form according to a defined, coordinated schedule. The typical increase in the size of the brain in mammals in the course of evolution ultimately triggered changes in this developmental plan, as a study conducted on embryos of 134 species of animal headed by palaeontologists from the University of Zurich reveals.
Embryonic development in animals – except mice and rats – remains largely unexplored. For a research project at the University of Zurich, the embryos of 134 species of animal were studied non-invasively for the first time using microcomputer imaging, thus yielding globally unique data. The embryos studied came from museum collections all over the world. The international team of researchers headed by Marcelo Sánchez-Villagra especially studied cranial formation and discovered that the individual cranial bones develop in different phases that are characteristic for the individual species. According to the study, which was published in the journal Nature communications, how the cranial bones develop in mammals also depends on brain size.
Brain size influences the timing of cranial development
The skulls of full-grown animals consist of many individual bones that have fused together. There are two types of bone: dermal and endochondral bones. Endochondral bones form from cartilaginous tissue, which ossifies in the course of the development. Dermal bones, on the other hand, are formed in the dermis. The majority of the skull consists of dermal bones. The bones inside the skull and the petrous bone, part of the temporal bone, however, are endochondral.
As Daisuke Koyabu, now at University of Tokyo, who conducted the studies while he was a post-doc under Sánchez-Villagra, was able to demonstrate, the different bone types do not develop synchronously: Dermal cranial bones form before the endochondrals. According to Sánchez-Villagra, this indicates that the individual bones form based on a precisely defined, coordinated schedule that is characteristic for every species of animal and enables conclusions to be drawn regarding their evolutionary relationships in the tree of animal life. The researchers also discovered that individual bones in the area around the back of the head have changed their development plan in the course of evolution. “The development of larger brains in mammals triggered the changes observed in the development of bone formation,” Sánchez-Villagra.
Mammals: masticatory apparatus first
With the aid of quantitative methods and evolutionary trees, the researchers ultimately reconstructed the embryonic cranial development of the last common ancestors of all mammals, which lived 180 million years ago during the Jurassic period. As with the majority of mammals, its cranial development began with the formation of the masticatory apparatus bones.
Literature:
Daisuke Koyabu, Ingmar Werneburg, Naoki Morimoto, Christoph E. Zollikofer, Analia M. Forasiepi, Hideki Endo, Junpei Kimura, Stoshi D. Ohdachi, Son Ngyuen Truong, Marcelo R. Sánchez-Villagra, Mammalian skull heterochrony reveals modular evolution and a link between cranial development and brain size. Nature communications. April 4, 2014, doi: 10.1038/ncomms4625
Contact:
Prof. Dr. Marcelo R. Sánchez-Villagra
Paläontologisches Institut und Museum
Universität Zürich
E-Mail: m.sanchez@pim.uzh.ch
Different stages of skull development in the Japanese field mouse.
Picture: UZH
None
Skull bones of the Japanese field mouse
Picture: UZH
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Criteria of this press release:
Journalists
Biology, Cultural sciences, Environment / ecology, Zoology / agricultural and forest sciences
transregional, national
Research results, Scientific Publications
English
Different stages of skull development in the Japanese field mouse.
Picture: UZH
None
Skull bones of the Japanese field mouse
Picture: UZH
None
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