Dental morphological traits were employed in this study as direct indicators of biological affinities among the populations that inhabited the Italian peninsula from the Upper Paleolithic-Mesolithic to Medieval times. Our analysis aims at contributing to the ongoing debate regarding the origin and spread of agriculture in the peninsula by contrasting the dental evidence of archaeological and modern molecular samples. It is not possible to generalize given the complex and dynamic nature of these populations. However, the results from the principal component analysis, maximum likelihood, mean measure of divergence, and multidimensional scaling do indicate a net separation of the Paleo-Mesolithic sample from the other groups that is not related to dental reduction. This suggests that the shift in dental morphology was the product of Neolithic populations migrating into the peninsula from other areas. Nonetheless, the Paleo-Mesolithic populations share several discriminative traits with the Neolithic group. The biological relevance of such evidence suggests that, to some minor extent, the spread of agriculture did not occur by total population replacement. Because of regional small sample sizes, this hypothesis cannot be tested on a micro-regional scale. It is, however, feasible to depict a scenario where processes of genetic mixture or replacement probably took place at different rates on a macro-regional level.
The present study investigates the skeletal remains of individuals who were part of a Roman suburban community, in order to assess lifestyle and living conditions in the town's outskirts during the Roman Imperial age. The existence of the community was linked to the functioning of one of the many villas that surrounded the town of Rome at that time. In order to assess health, several indicators were explored, including mortality, oral pathologies and specific (cribra orbitalia) and aspecific (linear enamel hypoplasia) indicators of nutritional and physiological impairment. The sample, which probably represents the labour force of the villa, shows a high number of individuals dying in the early adult age and very few living beyond 50. Subadults were frequently affected by pathological conditions which may indicate anaemia and/or inflammations and infections, as witnessed by the frequency of cribra orbitalia. Growth was also impaired, as the individuals suffered from systemic disturbances during the early years of life that led to the formation of linear enamel hypoplasia (LEH) in their teeth. Frequency of LEH is very high, as well as its multiple occurrence through time (2.44 defects per individual) and its onset occurs from the earliest age classes. Diet, on the other hand, does not seem to have been particularly carbohydrate based. Oral pathologies are very low, which is consistent with meat consumption complementing a diet rich in low-calorific products of agriculture and seemingly low in refined carbohydrates.
The Copper Age (3rd millennium BC) was characterized by considerable socioeconomic transformations and coincided with the discovery of metallurgy. In this study we reconstruct the peopling of Italy during this period on the basis of dental morphology traits. Dental remains from 41 sites throughout Italy were analyzed; only three of the sites (Laterza and two from Sicily) span from the late Copper Age to the early Bronze Age. To work with adequate samples, we pooled the collections into nine geographically and culturally homogeneous groups. Dental morphological traits were scored on 8,891 teeth from 1,302 individuals using the ASUDAS scale. The correlation between the mean measure of divergence and geographic distances (calculated as air distances) was computed. Multidimensional scaling with the minimum spanning tree and maximum-likelihood methods was applied to assess the relationships between groups. The results revealed a substantial genetic homogeneity among the populations throughout the Italian peninsula during the Copper Age with the exception of Sardinia, which tends to diverge from the continental samples. Phenetic and geographic distances correlate highly significantly only when the southern samples from Sicily and Laterza are removed from the analysis, which indicates that these groups may have experienced genetic admixture with external populations.
Discrete and metric dental traits are used to assess biological similarities and differences among 13 bioarchaeological populations located on each side of the Apennine mountains in central-southern Italy and dated to the first millennium BC. An initial hypothesis, that the mountain chain might provide a significant geographical barrier for population movement (resulting in greater biological affinities among those groups on the same side), is not supported. Instead, the samples appear to cluster more on the basis of time than geography. Archaeological evidence, however, supports an association between populations on opposite sides of the mountains and thus is in accord with the dental data. As anticipated, discrete dental traits appear to be more useful than metric dental traits in assessing such population affinities. This research represents a beginning to a better comprehension of the complexity of the biological and cultural dynamics of Italian populations during recent millennia.
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