Can ancestry be consistently determined from the skeleton?
DOI:
https://doi.org/10.1515/anre-2015-0002Keywords:
human skeletal identification, race, discriminant function analysis, non-metric variationAbstract
Although the concept of race has been thoroughly criticised in biological anthropology, forensic anthropology still uses a number of methods to determine the ‘race’ of a skeleton. The methods must be evaluated to see how effective they are given large individual variation. This study used 20 cases of skeletons of varied provenance to test whether the nine published methods of ‘race’ determination, using a range of various approaches, were able to consistently identify the ethnic origin. No one individual was identified as belonging to just one ‘major racial class’, e.g. European, meaning that complete consistency across all nine methods was not observed. In 14 cases (70%), various methods identified the same individual as belonging to all three racial classes. This suggests that the existing methods for the determination of ‘race’ are compromised. The very concept of ‘race’ is inapplicable to variation that occurs between populations only in small ways and the methods are limited by the geographic population from which their discriminant functions or observations of morphological traits were derived. Methods of multivariate linear discriminant analysis, e.g. CRANID, are supposed to allocate an individual skull to a specific population rather than a ‘major race’. In our analysis CRANID did not produce convincing allocations of individual skeletons to specific populations. The findings of this study show that great caution must be taken when attempting to ascertain the ‘race’ of a skeleton, as the outcome is not only dependent on which skeletal sites are available for assessment, but also the degree to which the unknown skeleton’s population of origin has been investigated.
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References
Bass WM. 1995. Human Osteology: A Laboratory and Field Manual. Fourth edn. Columbia: Missouri Archaeological Society. Brace CL. 2005. “Race” is a four-letter word: the genesis of the concept. Oxford: Oxford University Press.
View in Google Scholar
Brace CL & Ryan AS. 1980. Sexual Dimorphism and Human Tooth Size Differences. J Hum Evol 9(1): 417–435.
View in Google Scholar
Brues AM. 1990. The once and future diagnosis of race. In: GW Gill & S Rhine, editors. Skeletal Attribution of Race. Albuquerque: Maxwell Museum of Anthropology.
View in Google Scholar
Brues AM. 1992. Forensic Diagnosis of Race-General Race vs Specific Populations. Soc Sci Med 34(2): 125–128.
View in Google Scholar
Giles E & Elliot O. 1962. Race identification from cranial measurements. J Forensic Sci 7(1): 147–157.
View in Google Scholar
Gill GW. 1984. A forensic test case for a new method of geographical race determination. In: TA Rathbun & JE Buikstra, editors. Human Idnetification: Case Studies in Forensic Anthropolgy. Springfield: Thomas.
View in Google Scholar
Gill GW. 1998. Craniofacial criteria in the skeletal attribution of race. In: KJ Reichs, editors. Advances in the identification of human remains. Springfield: Charles C. Thomas. 293–317.
View in Google Scholar
Henneberg M. 2006. The rate of human morphological microevolution and taxonomic diversity of hominids. Studies in Historical Anthropology 4(1): 49–59.
View in Google Scholar
Henneberg M. 2010. The Illusive Concept of Human Variation: Thirty Years of Teaching Biological Anthropology on Four Continents. In: G Strkalj, editors. Teaching Human Variation: Issues, Trends and Challenges. New York: Nova Science Publishers.
View in Google Scholar
Iscan MY. 1983. Assessment of Race From the Pelvis. Am J Phys Anthropol 62(1): 205–208.
View in Google Scholar
Iscan MY & Steyn M. 1999. Craniometric Determination of Population Affinity in South Africans. Int J Leg Med 112(1): 91–97.
View in Google Scholar
Kallenberger L & Pilbrow V. 2012. Using CRANID to test the population affinity of known crania. J Anat 22(5): 459–464.
View in Google Scholar
Kaszycka KA, Strkalj G & Strzalko J. 2009. Current views of European anthropologists on race: Influence of educational and ideological background. Am Anthropol 111(1): 43–56.
View in Google Scholar
Lewontin RC. 1976. The Fallacy of Biological Determinism. The Sciences 16(2): 6–10.
View in Google Scholar
Ousley S, Jantz R & Freid D. 2009. Understanding race and human variation: Why forensic anthropologists are good at identifying race. Am J Phys Anthropol 139(1): 68–76.
View in Google Scholar
Patriquin ML, Steyn M & Loth SR. 2002. Metric assessment of race from the pelvis in South Africans. Forensic Sci Int 127(1): 104–113.
View in Google Scholar
Rhine S. 1993. Skeletal Criteria for Racial Attribution. NAPA Bulletin 13(1): 54–67.
View in Google Scholar
Snow CC, Hartman S, Giles E & Young FA. 1979. Sex and Race Determination of Crania by Calipers and Computer: A Test of the Giles and Elliot Discriminant functions in 52 Forensic Cases. Washington, DC.
View in Google Scholar
Williams F, Belcher R & Armelagos G. 2005. Forensic misclassification of Ancient Nubian crania: Implications for assumptions about human variation. Current Anthropology 46(1): 340–346.
View in Google Scholar
Wright R. 2008. Detection of likely ancestry using CRANID. In: M Oxenham, editors. Forensic approaches to death, disaster and abuse. Queensland: Australian Achademic Press.
View in Google Scholar
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