The antiquity of the wolf/dog domestication has been recently pushed back in time from the Late Upper Paleolithic (~14,000 years ago) to the Early Upper Paleolithic (EUP; ~36,000 years ago). Some authors questioned this early dog domestication claiming that the putative (EUP) Paleolithic dogs fall within the morphological range of recent wolves. In this study, we reanalyzed a data set of large canid skulls using unbalanced‐ and balanced‐randomized discriminant analyses to assess whether the putative Paleolithic dogs are morphologically unique or whether they represent a subsample of the wolf morpho‐population. We evaluated morphological differences between 96 specimens of the 4 a priori reference groups (8 putative Paleolithic dogs, 41 recent northern dogs, 7 Pleistocene wolves, and 40 recent northern wolves) using discriminant analysis based on 5 ln‐transformed raw and allometrically size‐adjusted cranial measurements. Putative Paleolithic dogs are classified with high accuracies (87.5 and 100.0%, cross‐validated) and randomization experiment suggests that these classification rates cannot be exclusively explained by the small and uneven sample sizes of reference groups. It indicates that putative Upper Paleolithic dogs may represent a discrete canid group with morphological signs of domestication (a relatively shorter skull and wider palate and braincase) that distinguish them from sympatric Pleistocene wolves. The present results add evidence to the view that these specimens could represent incipient Paleolithic dogs that were involved in daily activities of European Upper Paleolithic forager groups.
In comparing long-bone cross-sectional geometric properties between individuals, percentages of bone length are often used to identify equivalent locations along the diaphysis. In fragmentary specimens where bone lengths cannot be measured, however, these locations must be estimated more indirectly. In this study, we examine the effect of inaccurately located femoral and tibial midshafts on estimation of geometric properties. The error ranges were compared on 30 femora and tibiae from the Eneolithic and Bronze Age. Cross-sections were obtained at each 1% interval from 60 to 40% of length using CT scans. Five percent of deviation from midshaft properties was used as the maximum acceptable error. Reliability was expressed by mean percentage differences, standard deviation of percentage differences, mean percentage absolute differences, limits of agreement, and mean accuracy range (MAR) (range within which mean deviation from true midshaft values was less than 5%). On average, tibial cortical area and femoral second moments of area are the least sensitive to positioning error, with mean accuracy ranges wide enough for practical application in fragmentary specimens (MAR 5 40-130 mm). In contrast, tibial second moments of area are the most sensitive to error in midshaft location (MAR 5 14-20 mm). Individuals present significant variation in morphology and thus in error ranges for different properties. For highly damaged fossil femora and tibiae we recommend carrying out additional tests to better establish specific errors associated with uncertain length estimates. Am J Phys Anthropol 141:325-332, 2010. V V C 2009 Wiley-Liss, Inc.
This article utilises skeletal evidence (n = 57) from settlement features and graves at Unterhautzenthal, Lower Austria, to outline our methodological approach to researching motherhood in prehistory. Unterhautzenthal includes the grave of a pregnant teenager, a triple burial of a woman with two children and a family grave of a man, woman and baby; additional women's graves include remains of neonates and young children. Comparing archaeological context information with osteobiographical data allows us to draw inferences about the social status of women and the ways Bronze Age motherhood was conceptualised. The archaeological approach includes a gender and age analysis of material culture and Social Index calculations. The osteological analyses include age at death, sex, body height, health indicators, and pathologies, with an emphasis on pelvic changes. Physical traces that may relate to strain through pregnancy and childbirth were explored in detail. In addition to morphological assessment of the entire skeletal collection, we applied tooth cementum annulation analysis, 14 C dating, and δ 13 C/δ 15 N isotope analysis to selected individuals. These data, in conjunction with demographic modelling, enable us to draw conclusions about women's age at first pregnancy and the average number of children per woman, as well as the cultural and social context of motherhood.
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