Human bony labyrinth is an indicator of population history and dispersal from Africa

The dispersal of modern humans from Africa is now well documented with genetic data that track population history, as well as gene flow between populations. Phenetic skeletal data, such as cranial and pelvic morphologies, also exhibit a dispersal-from-Africa signal, which, however, tends to be blurr...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2018-04, Vol.115 (16), p.4128-4133
Main Authors: de León, Marcia S. Ponce, Koesbardiati, Toetik, Weissmann, John David, Milella, Marco, Reyna-Blanco, Carlos S., Suwa, Gen, Kondo, Osamu, Malaspinas, Anna-Sapfo, White, Tim D., Zollikofer, Christoph P. E.
Format: Article
Language:English
Subjects:
Archaeology
Archives & records
Biological Sciences
Data recovery
Deoxyribonucleic acid
Dispersal
Dispersion
DNA
Ear
Evolution
Gene flow
Genetic distance
Genotype & phenotype
Genotypes
Geography
Inner ear
Labyrinth
Morphogenesis
Morphology
Phenotypes
Phenotypic plasticity
Phenotypic variations
Plastic properties
Plasticity
Population genetics
Populations
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Summary:The dispersal of modern humans from Africa is now well documented with genetic data that track population history, as well as gene flow between populations. Phenetic skeletal data, such as cranial and pelvic morphologies, also exhibit a dispersal-from-Africa signal, which, however, tends to be blurred by the effects of local adaptation and in vivo phenotypic plasticity, and that is often deteriorated by postmortem damage to skeletal remains. These complexities raise the question of which skeletal structures most effectively track neutral population history. The cavity system of the inner ear (the so-called bony labyrinth) is a good candidate structure for such analyses. It is already fully formed by birth, which minimizes postnatal phenotypic plasticity, and it is generally well preserved in archaeological samples. Here we use morphometric data of the bony labyrinth to show that it is a surprisingly good marker of the global dispersal of modern humans from Africa. Labyrinthine morphology tracks genetic distances and geography in accordance with an isolation-by-distance model with dispersal from Africa. Our data further indicate that the neutral-like pattern of variation is compatible with stabilizing selection on labyrinth morphology. Given the increasingly important role of the petrous bone for ancient DNA recovery from archaeological specimens, we encourage researchers to acquire 3D morphological data of the inner ear structures before any invasive sampling. Such data will constitute an important archive of phenotypic variation in present and past populations, and will permit individual-based genotype–phenotype comparisons.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1717873115