Dental reduction in Late Pleistocene and Early Holocene hominids: alternative approaches to assessing tooth size

Charles M. Fitzgerald; Simon Hillson

doi:10.1017/CBO9780511542442.016

16 - Dental reduction in Late Pleistocene and Early Holocene hominids: alternative approaches to assessing tooth size

Published online by Cambridge University Press: 12 September 2009

Charles M. Fitzgerald and

Simon Hillson

Edited by

Joel D. Irish and

Greg C. Nelson

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Charles M. Fitzgerald: Affiliation:
Department of Anthropology, McMaster University, Hamilton, Ontario, Canada
Simon Hillson: Affiliation:
Institute of Archaeology, University College London, UK
Joel D. Irish: Affiliation:
University of Alaska, Fairbanks
Greg C. Nelson: Affiliation:
University of Oregon

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Summary

Introduction

Contemporary humans have, on average, the smallest teeth of any hominid throughout the evolutionary history of the family. Within the genus Homo, the trend over the past two million years has been one of dental reduction; however, many anthropologists believe that this has been especially marked over the last 100 000 years or so (the Late Pleistocene and Holocene periods), both in Neandertals and so-called anatomically modern Homo sapiens (Brace, 1964, 1967, 2000; Brace et al., 1987; Calcagno, 1989; Calcagno and Gibson, 1991; Carlson and van Gerven, 1977; Frayer, 1978, 1984; y'Edynak, 1989, 1992). The way in which this reduction of tooth size came about is one of the key issues in the evolution of modern humans; yet, in order to understand this process, it is necessary to confront the issue of how tooth size should be assessed. It is clear that with rapidly advancing technology (some examples of which can be found in this volume), it may someday be possible to employ precise volumetric and morphometric methods of tooth assessment that can be easily applied in an “in vivo” field/collection situation. At present, however, it is more practical to use simple caliper measurements.

In this chapter we assess the traditional methods of determining tooth dimensions and discuss an alternative approach adopted for a study of dental reduction in hominids of the Late Pleistocene and Holocene. We then evaluate the effectiveness of the conventional methods vs. our proposed alternative.

Type: Chapter
Information: Technique and Application in Dental Anthropology , pp. 364 - 388

DOI: https://doi.org/10.1017/CBO9780511542442.016 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2008

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References

Azouley, O. and Regnault, O. (1893). Variation in the form of the teeth. Bulletins et Memoires de la Societe d'Anthropologie de Paris, 4, 266Google Scholar

Biggerstaff, R. H. (1969). The basal area of posterior tooth crown components: the assessment of within tooth variations of premolars and molars. American Journal of Physical Anthropology, 31, 163–70CrossRef Google Scholar PubMed

Biggerstaff, R. H. (1975). Cusp size, sexual dimorphism, and heritability of cusp size in twins. American Journal of Physical Anthropology, 42, 127–39CrossRef Google Scholar PubMed

Brace, C. L. (1964). The probable mutation effect. The American Naturalist, 98, 453–5CrossRef Google Scholar

Brace, C. L. (1967). Environment, tooth form, and size in the Pleistocene. Journal of Dental Research, 46, 809–16CrossRef Google Scholar PubMed

Brace, C. L. (2000). Tooth size differences and the antiquity of cooking (abstract). American Journal of Physical Anthropology Supplement, 30, 110–11Google Scholar

Brace, C. L., Rosenberg, K. R., and Hunt, K. D. (1987). Gradual change in human tooth size in the Late Pleistocene and Post-Pleistocene. Evolution, 41, 705–20Google Scholar PubMed

Calcagno, J. M. (1989). Mechanisms of Human Dental Reduction: A Case Study from Post-Pleistocene Nubia. Lawrence: University of KansasGoogle Scholar

Calcagno, J. M. and Gibson, K. R. (1991). Selective compromise: evolutionary trends and mechanisms in hominid tooth size. In Advances in Dental Anthropology, ed. Kelley, M. A. and Larsen, C. S.. New York: Wiley-Liss, pp. 59–76Google Scholar

Carlson, D. S. and Gerven, D. P. (1977). Masticatory function and post-Pleistocene evolution in Nubia. American Journal of Physical Anthropology, 46, 495–506CrossRef Google Scholar PubMed

Colby, G. R. (1996). Analysis of dental sexual dimorphism in two western Gulf of Mexico precontact populations utilizing cervical measurements (abstract). American Journal of Physical Anthropology, Supplement 22, p. 87Google Scholar

Corruccini, R. S. (1977a). Cartesian coordinate analysis of the hominoid second lower deciduous molar. Journal of Dental Research, 56, 699CrossRef Google Scholar

Corruccini, R. S. (1977b). Crown component variation in the hominoid lower second premolar. Journal of Dental Research, 56, 1093–6CrossRef Google Scholar

Corruccini, R. S. (1978). Crown component variation in hominoid upper first premolars. Archives of Oral Biology, 23, 491–4CrossRef Google Scholar PubMed

Corruccini, R. S. and Potter, R. H. (1981). Developmental correlates of crown component asymmetry and occlusal discrepancy. American Journal of Physical Anthropology, 55, 21–31CrossRef Google Scholar PubMed

Falk, D. and Corruccini, R. S. (1982). Efficacy of cranial versus dental measurements for separating human populations. American Journal of Physical Anthropology, 57, 123–8CrossRef Google Scholar

FitzGerald, C. M. and Hillson, S. W. (2002). Dental reduction in Late Pleistocene and Early Holocene hominids (abstract). American Journal of Physical Anthropology Supplement, 34, 70Google Scholar

FitzGerald, C. M. and Hillson, S. W. (2004). Testing hypotheses for dental reduction in Late Pleistocene and Early Holocene hominids (abstract). American Journal of Physical Anthropology Supplement, 38, 95Google Scholar

FitzGerald, C. M. and Hillson, S. W. (2005). Dental reduction in Late Pleistocene and Early Holocene hominids: alternative approaches to assessing tooth size (abstract). American Journal of Physical Anthropology Supplement, 40, 102Google Scholar

Frayer, D. W. (1978). Evolution of the Dentition in Upper Paleolithic and Mesolithic Europe. Lawrence: University of KansasGoogle Scholar

Frayer, D. W. (1984). Biological and cultural change in the European Late Pleistocene and Early Holocene. In The Origin of Modern Humans: A World Survey of the Fossil Evidence, ed. Smith, F. H. and Spencer, F.. New York: Alan R. Liss, pp. 211–50Google Scholar

Goose, D. H. (1963). Dental measurement: an assessment of its value in anthropological studies. In Dental Anthropology, ed. Brothwell, D. R.. London: Pergamon Press, pp. 125–48Google Scholar

Hillson, S. W. (1998). Crown diameters, tooth crown development, and environmental factors in growth. In Human Dental Development, Morphology and Pathology: A Tribute to Albert A. Dahlberg, ed. Lukacs, J. R.. Eugene: University of Oregon, pp. 17–28Google Scholar

Hillson, S. W. and FitzGerald, C. M. (2003). Tooth size variation and dental reduction in Europe, the Middle East and North Africa between 12 0000 and 5000 BP (abstract). American Journal of Physical Anthropology Supplement, 36, 114Google Scholar

Hillson, S. W., FitzGerald, C. M., and Flinn, H. (2005). Alternative dental measurements: proposals and relationships with other measurements. American Journal of Physical Anthropology, 126, 413–26CrossRef Google Scholar PubMed

Kieser, J. A. (1990). Human Adult Odontometrics. Cambridge: Cambridge University PressCrossRef Google Scholar

Mayhall, J. T. (2000). Dental morphology: techniques and strategies. In Biological Anthropology of the Human Skeleton, ed. Katzenberg, M. A. and Saunders, S. R.. New York: Wiley-Liss, pp. 103–34Google Scholar

Moorrees, C. F. and Reed, R. B. (1954). Correlations among crown diameters of human teeth. Archives of Oral Biology, 9, 685–97CrossRef Google Scholar

Morris, D. H. (1986). Maxillary molar occlusal polygons in five human samples. American Journal of Physical Anthropology, 70, 333–8CrossRef Google Scholar PubMed

Smith, B. H. (1984). Patterns of molar wear in hunter-gatherers and agriculturalists. American Journal of Physical Anthropology, 63, 39–56CrossRef Google Scholar

Stojanowski, C. M. (in press). Comment on “Alternative Dental Measurements” by Hillson et al. American Journal of Physical AnthropologyGoogle Scholar

Tobias, P. V. (1967). Olduvai Gorge II: The Cranium and Maxillary Dentition of Australopithecus (Zinjanthropus) boisei. Cambridge: Cambridge University PressCrossRef Google Scholar

Wolpoff, M. H. (1969). The effect of mutations under conditions of reduced selection. Social Biology, 16, 11–23CrossRef Google Scholar PubMed

y'Edynak, G. (1989). Disease and dimensional compensation during Yugoslav dental reduction (abstract). American Journal of Physical Anthropology, 78, 327Google Scholar

y'Edynak, G. (1992). Dental pathology: a factor in post-Pleistocene Yugoslav dental reduction. In Culture, Ecology and Dental Anthropology, ed. Lukacs, J. R.. Delhi: Kamla-Raj Enterprises, pp. 133–44Google Scholar

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16 - Dental reduction in Late Pleistocene and Early Holocene hominids: alternative approaches to assessing tooth size

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