Cervical and crown outline analysis of worn Neanderthal and modern human lower second deciduous molars.

Despite the general increase in digital techniques for dental morphometric analyses, only a few methods are available to study worn teeth. Moreover, permanent dentitions are studied much more frequently than deciduous teeth. In this study, we address both issues by providing a taxonomic classification of Neanderthal and modern human (MH) lower second deciduous molars (dm(2) s) through the analysis of crown and cervical outlines. Crown and cervical outlines were obtained from a three-dimensional (3D) digital sample of uniformly oriented dm(2) s. Both outlines were centered on the centroid of their area and represented by 16 pseudolandmarks obtained by equiangularly spaced radial vectors out of the centroid. We removed size information from the oriented and centered outlines with a uniform scaling of the pseudolandmark configurations to unit Centroid Size. Group shape variation was evaluated separately for the dm(2) crown and cervical outlines through a shape-space principal component (PC) analysis. Finally, quadratic discriminant analysis of a subset of PCs was used to classify the specimens. Our results demonstrate that both outlines successfully separate the two groups. Neanderthals showed a buccodistal expansion and convex lingual outline shape, whilst MHs have buccodistal reduction and straight lingual outline shape. Therefore, we confirmed that the cervical outline represents an effective parameter for distinguishing between the two taxa when dealing with worn or damaged dm(2) s.

[1]  Philipp Gunz,et al.  Enamel-dentine junction (EDJ) morphology distinguishes the lower molars of Australopithecus africanus and Paranthropus robustus. , 2008, Journal of human evolution.

[2]  B. Viola,et al.  A reassessment of the Neanderthal teeth from Taddeo cave (southern Italy). , 2011, Journal of human evolution.

[3]  J. Zilhão,et al.  Pego do Diabo (Loures, Portugal): Dating the Emergence of Anatomical Modernity in Westernmost Eurasia , 2010, PloS one.

[4]  A. Lussi Dental erosion : from diagnosis to therapy , 2006 .

[5]  J. Zilhão,et al.  The early Upper Paleolithic human skeleton from the Abrigo do Lagar Velho (Portugal) and modern human emergence in Iberia. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[6]  Jean-Jacques Hublin,et al.  Rapid dental development in a Middle Paleolithic Belgian Neanderthal , 2007, Proceedings of the National Academy of Sciences.

[7]  Tanya M. Smith,et al.  Dental tissue proportions and enamel thickness in Neandertal and modern human molars. , 2008, Journal of human evolution.

[8]  B. Maureille,et al.  Human remains from a new Upper Pleistocene sequence in Bondi Cave (Western Georgia). , 2012, Journal of human evolution.

[9]  J. Braga,et al.  Brief communication: high-resolution assessment of the dental developmental pattern and characterization of tooth tissue proportions in the late Upper Paleolithic child from La Madeleine, France. , 2009, American journal of physical anthropology.

[10]  B. Peretz,et al.  Morphometric analysis of developing crowns of maxillary primary second molars and permanent first molars in humans. , 1998, Archives of oral biology.

[11]  L. Mancini,et al.  Brief communication: two human fossil deciduous molars from the Sangiran dome (Java, Indonesia): outer and inner morphology. , 2012, American journal of physical anthropology.

[12]  B. Smith,et al.  Patterns of molar wear in hunger-gatherers and agriculturalists. , 1984, American journal of physical anthropology.

[13]  Stefano Benazzi,et al.  Improving the spatial orientation of human teeth using a virtual 3D approach. , 2009, Journal of human evolution.

[14]  A. P. D. Cesnola Il Gravettiano della Grotta Paglicci nel Gargano: l'industria litica e la cronologia assoluta , 1975 .

[15]  B. Viola,et al.  Relationship Between Cusp Size and Occlusal Wear Pattern in Neanderthal and Homo sapiens First Maxillary Molars , 2011, Anatomical record.

[16]  F. Zonneveld,et al.  Linear measurements of cortical bone and dental enamel by computed tomography: applications and problems. , 1993, American journal of physical anthropology.

[17]  Luca Fiorenza,et al.  Molar Macrowear Reveals Neanderthal Eco-Geographic Dietary Variation , 2011, PloS one.

[18]  P. Tafforeau,et al.  Three-dimensional analysis of mandibular dental root morphology in hominoids. , 2012, Journal of human evolution.

[19]  Helen M. Flinn,et al.  Alternative dental measurements: proposals and relationships with other measurements. , 2005, American journal of physical anthropology.

[20]  B. Wood,et al.  Analysis of the dental morphology of Plio-Pleistocene hominids. II. Mandibular molars--study of cusp areas, fissure pattern and cross sectional shape of the crown. , 1983, Journal of anatomy.

[21]  José Braga,et al.  Dental developmental pattern of the Neanderthal child from Roc de Marsal: a high-resolution 3D analysis. , 2009, Journal of human evolution.

[22]  Jean-Jacques Hublin,et al.  Technical note: compatibility of microtomographic imaging systems for dental measurements. , 2007, American journal of physical anthropology.

[23]  F. Mallegni,et al.  Comparison of dental measurement systems for taxonomic assignment of Neanderthal and modern human lower second deciduous molars. , 2011, Journal of human evolution.

[24]  Stefano Benazzi,et al.  Early dispersal of modern humans in Europe and implications for Neanderthal behaviour , 2011, Nature.

[25]  M. Toussaint,et al.  The Neandertal lower right deciduous second molar from Trou de l'Abîme at Couvin, Belgium. , 2010, Journal of human evolution.

[26]  J. Arsuaga,et al.  Hominin lower second premolar morphology: evolutionary inferences through geometric morphometric analysis. , 2006, Journal of human evolution.

[27]  Stefano Benazzi,et al.  Morphology, wear and 3D digital surface models: materials and techniques to create high-resolution replicas of teeth. , 2009, Journal of anthropological sciences = Rivista di antropologia : JASS.

[28]  J. Arsuaga,et al.  A geometric morphometric analysis of hominin upper first molar shape. , 2007, Journal of human evolution.

[29]  F. Bookstein,et al.  Comparison of dental measurement systems for taxonomic assignment of first molars. , 2011, American journal of physical anthropology.

[30]  J. Hublin,et al.  Mandibular molar root morphology in Neanderthals and Late Pleistocene and recent Homo sapiens. , 2010, Journal of human evolution.

[31]  G. Townsend,et al.  Associations between Carabelli trait and cusp areas in human permanent maxillary first molars. , 2006, American journal of physical anthropology.

[32]  Erik Trinkaus,et al.  Dental maturational sequence and dental tissue proportions in the early Upper Paleolithic child from Abrigo do Lagar Velho, Portugal , 2010, Proceedings of the National Academy of Sciences.

[33]  Tanya M. Smith,et al.  Dental evidence for ontogenetic differences between modern humans and Neanderthals , 2010, Proceedings of the National Academy of Sciences.

[34]  T. W. Anderson ASYMPTOTIC THEORY FOR PRINCIPAL COMPONENT ANALYSIS , 1963 .

[35]  Isabelle De Groote,et al.  Technical note: A new method for measuring long bone curvature using 3D landmarks and semi-landmarks. , 2010, American journal of physical anthropology.

[36]  S. Benazzi,et al.  An Experimental Approach to Evaluate the Correspondence Between Wear Facet Position and Occlusal Movements , 2012, Anatomical record.

[37]  S. Bailey A morphometric analysis of maxillary molar crowns of Middle-Late Pleistocene hominins. , 2004, Journal of human evolution.