Premium
Intra‐individual metameric variation expressed at the enamel‐dentine junction of lower post‐canine dentition of South African fossil hominins and modern humans
Author(s) -
Pan Lei,
Thackeray John Francis,
Dumoncel Jean,
Zanolli Clément,
Oettlé Anna,
de Beer Frikkie,
Hoffman Jakobus,
Duployer Benjamin,
Tenailleau Christophe,
Braga José
Publication year - 2017
Publication title -
american journal of physical anthropology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.146
H-Index - 119
eISSN - 1096-8644
pISSN - 0002-9483
DOI - 10.1002/ajpa.23240
Subject(s) - dentition , biology , endocast , variation (astronomy) , evolutionary biology , taxon , enamel paint , paleontology , anatomy , skull , dentistry , medicine , physics , astrophysics
Objectives The aim of this study is to compare the degree and patterning of inter‐ and intra‐individual metameric variation in South African australopiths, early Homo and modern humans. Metameric variation likely reflects developmental and taxonomical issues, and could also be used to infer ecological and functional adaptations. However, its patterning along the early hominin postcanine dentition, particularly among South African fossil hominins, remains unexplored. Materials and Methods Using microfocus X‐ray computed tomography (µXCT) and geometric morphometric tools, we studied the enamel‐dentine junction (EDJ) morphology and we investigated the intra‐ and inter‐individual EDJ metameric variation among eight australopiths and two early Homo specimens from South Africa, as well as 32 modern humans. Results Along post‐canine dentition, shape changes between metameres represented by relative positions and height of dentine horns, outlines of the EDJ occlusal table are reported in modern and fossil taxa. Comparisons of EDJ mean shapes and multivariate analyses reveal substantial variation in the direction and magnitude of metameric shape changes among taxa, but some common trends can be found. In modern humans, both the direction and magnitude of metameric shape change show increased variability in M 2 ‐M 3 compared to M 1 ‐M 2 . Fossil specimens are clustered together showing similar magnitudes of shape change. Along M 2 ‐M 3 , the lengths of their metameric vectors are not as variable as those of modern humans, but they display considerable variability in the direction of shape change. Conclusion The distalward increase of metameric variation along the modern human molar row is consistent with the odontogenetic models of molar row structure (inhibitory cascade model). Though much remains to be tested, the variable trends and magnitudes in metamerism in fossil hominins reported here, together with differences in the scale of shape change between modern humans and fossil hominins may provide valuable information regarding functional morphology and developmental processes in fossil species.