The early Pleistocene deciduous hominid molar FS-72 from the Sangiran dome of java, Indonesia: A taxonomic reappraisal based on its comparative endostructural characterization

ABSTRACT Objectives: Among the ten fossil hominid deciduous teeth reported so far from the Pleistocene sediments of the Sangiran Dome of Java are two isolated lower second molars: specimens PCG.2 from the Kabuh Formation and FS‐72 from the Pucangan Formation. While PCG.2 appears to be certainly attr...

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Published in:American journal of physical anthropology 2015-08, Vol.157 (4), p.666-674
Main Authors: Zanolli, Clément, Grine, Frederick E., Kullmer, Ottmar, Schrenk, Friedemann, Macchiarelli, Roberto
Format: Article
Language:English
Subjects:
Animals
Biological anthropology
deciduous molar FS-72
Dental Enamel - anatomy & histology
Early Pleistocene
Earth Sciences
Fossils
hominid paleobiodiversity
Hominidae - anatomy & histology
Hominidae - classification
Humanities and Social Sciences
Humans
Imaging, Three-Dimensional
Indonesia
internal structure
Java
Molar - anatomy & histology
Morphology
Paleodontology
Paleontology
Physical anthropology
Pleistocene
Pongo - anatomy & histology
Sangiran Dome
Sciences of the Universe
Taxonomy
Topography
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Summary:ABSTRACT Objectives: Among the ten fossil hominid deciduous teeth reported so far from the Pleistocene sediments of the Sangiran Dome of Java are two isolated lower second molars: specimens PCG.2 from the Kabuh Formation and FS‐72 from the Pucangan Formation. While PCG.2 appears to be certainly attributable to Homo erectus, FS‐72 is somewhat more problematic, even though it is commonly listed within the Indonesian H. erectus hypodigm. Largely because of its large size, it was originally attributed to Meganthropus paleojavanicus. Subsequent study highlighted a set of metric and nonmetric crown features also found in Australopith and African early Homo (notably H. habilis) homologues. An additional problem with the taxonomic assignment of isolated teeth from the Pleistocene of Java is the presence of Pongo in these same deposits. Methods: To assess the taxonomic affinity of FS‐72, we investigated its inner structure (tissue proportions and enamel‐dentine junction morphology) by using techniques of 2–3D virtual imaging coupled with geometric morphometric analyses. Results: The results show that FS‐72 has thinner enamel compared to fossil and recent humans and that its topographic repartition more closely follows the pongine pattern. It also exhibits a Pongo‐like elongated morphology of the enamel‐dentine junction, with proportionally lower and mesiodistally spaced dentine horns. Conclusions: Given the morphological and metric similarities between fossil orangutan and H. erectus molars, we tested the hypothesis that its internal morphology more closely resembles the patterns evinced by PCG.2 and modern humans than Pongo. Accordingly, we consider that FS‐72 more likely represents a dm2 of Pongo rather than Homo. Am J Phys Anthropol 157:666–674, 2015. © 2015 Wiley Periodicals, Inc.
ISSN:0002-9483
1096-8644
2692-7691
DOI:10.1002/ajpa.22748