Article ID Journal Published Year Pages File Type
100337 HOMO - Journal of Comparative Human Biology 2010 8 Pages PDF
Abstract

Both forensic and archaeological sciences use metric analysis of human skeletal remains for sex estimation of unknown individuals. Thomas Dwight first reported the utility of scapula metrics for sex estimation in 1894, and subsequent years have produced several techniques for sex estimation using scapula metrics. Levels of sexual dimorphism vary across time and space, making these methods not universally applicable. Novel discriminant functions for unique populations are thus necessary. The present study establishes metric standards for sex estimation for a New Kingdom Egyptian skeletal sample from Tell El-Amarna using scapular measurements. The sample for this research consists of 27 individuals (14 males; 13 females) whose sex estimate based on pelvic morphology is unambiguous. The five measurements showing the highest degree of sexual dimorphism (p ≤ 0.001) are used in the discriminant functions reported here: maximum length of the scapula, maximum length of the scapular spine, breadth of the infraspinous body, height of the glenoid fossa, and breadth of the glenoid fossa. The overall leave one out, cross-validated accuracy for the five reported discriminant functions ranges from 84.0 to 88.0%; similar to accuracies reported for the femur and humerus. Functions combining multiple variables produce higher accuracies than those based on single measurements. The unique population of Amarna, being comprised of emigrants from throughout Egypt, suggests these discriminant functions will have utility for Amarna period sites across the spatial distances of Egypt, and possibly the temporal range of the New Kingdom as a whole.

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