<p>A - Longstanding problems of “the population</p> <p>1. Using data from the US Korean War Dead and the Terry Collection to demonstrate problems of the common “overlap methods<br>Lyle W. Konigsberg</p> <p>2. Testing for differences in senescence using score data to understand the effects of reference sample choices <br>Susan R. Frankenberg</p> <p>B - Aging across the ages</p> <p>3. Subadult age estimation variables: Exploring their varying roles across ontogeny<br>K.E. Stull, L.K. Corron, and M.H. Price</p> <p>4. Aging the elderly: Does the skull tell us something about age at death?<br>Flavia Teixeira and Eugenia Cunha</p> <p>5. Population variation in diaphyseal growth and age estimation of juvenile skeletal remains<br>H.F.V. Cardoso, L. Spake, L. Rı´os, and J. Albanese</p> <p>6. Great expectations: The rise, fall, and resurrection of adult skeletal age estimation<br>George R. Milner, Jesper L. Boldsen, Stephen D. Ousley, Sara M. Getz, Svenja Weise, and Peter Tarp</p> <p>C - Computational methods come of age</p> <p>7. A volumetric approach to age estimation informed by voxel selection: Application to the spheno-occipital synchondrosis<br>Nicolene Lottering, Mark D. Barry, Laura S. Gregory, Donna M. MacGregor, and Clair L. Alston-Knox</p> <p>8. The consecutive inference of ancestry and age from shape measures of the pubic symphysis<br>Bridget FB Algee-Hewitt and Jieun Kim</p> <p>D - Classic indicators rejuvenated</p> <p>9. The fallacy of forensic age estimation from morphometric quantifications of the pubic symphysis<br>Fred L. Bookstein and Guillermo Bravo Morante</p> <p>10. An application of the Bayesian San-Milla´n-Rissech acetabular aging method to an African American sample: Preliminary results<br>Marta San-Millan</p>
