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Crown tissue proportions and enamel thickness distribution in the Middle Pleistocene hominin molars from Sima de los Huesos (SH) population (Atapuerca, Spain)

Author

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  • Laura Martín-Francés
  • María Martinón-Torres
  • Marina Martínez de Pinillos
  • Cecilia García-Campos
  • Clément Zanolli
  • Priscilla Bayle
  • Mario Modesto-Mata
  • Juan Luis Arsuaga
  • José María Bermúdez de Castro

Abstract

Dental enamel thickness, topography, growth and development vary among hominins. In Homo, the thickness of dental enamel in most Pleistocene hominins display variations from thick to hyper-thick, while Neanderthals exhibit proportionally thinner enamel. The origin of the thin trait remains unclear. In this context, the Middle Pleistocene human dental assemblage from Atapuerca-Sima de los Huesos (SH) provides a unique opportunity to trace the evolution of enamel thickness in European hominins. In this study, we aim to test the hypothesis if the SH molar sample approximates the Neanderthal condition for enamel thickness and/or distribution. This study includes 626 molars, both original and comparative data. We analysed the molar inner structural organization of the original collections (n = 124), belonging to SH(n = 72) and modern humans from Spanish origin (n = 52). We compared the SH estimates to those of extinct and extant populations of the genus Homo from African, Asian and European origin (estimates extracted from literature n = 502). The comparative sample included maxillary and mandibular molars belonging to H. erectus, East and North African Homo, European Middle Pleistocene Homo, Neanderthals, and fossil and extant H. sapiens. We used high-resolution images to investigate the endostructural configuration of SH molars (tissue proportions, enamel thickness and distribution). The SH molars exhibit on average thick absolute and relative enamel in 2D and 3D estimates, both in the complete crown and the lateral enamel. This primitive condition is shared with the majority of extinct and extant hominin sample, except for Neanderthals and some isolated specimens. On the contrary, the SH molar enamel distribution maps reveal a distribution pattern similar to the Neanderthal signal (with thicker enamel on the lingual cusps and more peripherally distributed), compared to H. antecessor and modern humans. Due to the phylogenetic position of the SH population, the thick condition in molars could represent the persistence of the plesiomorphic condition in this group. Still, more data is needed on other Early and Middle Pleistocene populations to fully understand the evolutionary meaning of this trait.

Suggested Citation

  • Laura Martín-Francés & María Martinón-Torres & Marina Martínez de Pinillos & Cecilia García-Campos & Clément Zanolli & Priscilla Bayle & Mario Modesto-Mata & Juan Luis Arsuaga & José María Bermúdez de, 2020. "Crown tissue proportions and enamel thickness distribution in the Middle Pleistocene hominin molars from Sima de los Huesos (SH) population (Atapuerca, Spain)," PLOS ONE, Public Library of Science, vol. 15(6), pages 1-35, June.
    • Handle: RePEc:plo:pone00:0233281
    DOI: 10.1371/journal.pone.0233281
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    References listed on IDEAS

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    1. Matthias Meyer & Qiaomei Fu & Ayinuer Aximu-Petri & Isabelle Glocke & Birgit Nickel & Juan-Luis Arsuaga & Ignacio Martínez & Ana Gracia & José María Bermúdez de Castro & Eudald Carbonell & Svante Pääb, 2014. "A mitochondrial genome sequence of a hominin from Sima de los Huesos," Nature, Nature, vol. 505(7483), pages 403-406, January.
    2. Paul T E Cusack, 2020. "The Human Brain," Biomedical Journal of Scientific & Technical Research, Biomedical Research Network+, LLC, vol. 31(3), pages 24261-24266, October.
    3. Roberto Macchiarelli & Luca Bondioli & André Debénath & Arnaud Mazurier & Jean-François Tournepiche & Wendy Birch & M. Christopher Dean, 2006. "How Neanderthal molar teeth grew," Nature, Nature, vol. 444(7120), pages 748-751, December.
    4. Christopher Dean & Meave G. Leakey & Donald Reid & Friedemann Schrenk & Gary T. Schwartz & Christopher Stringer & Alan Walker, 2001. "Growth processes in teeth distinguish modern humans from Homo erectus and earlier hominins," Nature, Nature, vol. 414(6864), pages 628-631, December.
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