Between Raetia Secunda and the dutchy of Bavaria: Exploring patterns of human movement and diet.

During the transition from Late Antiquity to the Middle Ages, the Roman Empire dissolved in the West and medieval empires were founded. There has been much discussion about the role that migration played in this transition. This is especially true for the formation of the Baiuvariian tribe and the founding of this tribal dukedom, which took place from the 5th to the 6th century in what is now Southern Bavaria (Germany). In this study, we aimed to determine the extent of immigration during the beginning of this transformation and to shed further light on its character. To achieve this goal, we analyzed stable isotope values of strontium, carbon, and nitrogen from the teeth and bones of over 150 human remains from Southern Germany, dating from around 500 AD. This group of individuals included women with cranial modifications (ACD) which can be found sporadically in the burial grounds of this period. Our results showed an above-average migration rate for both men and women in the second half of the 5th century. They also indicate that a foreign background may also be assumed for the women with ACD. The demonstrably different origins of the immigrants from isotopically diverse regions, and the identification of local differences in detectable migration rate, as well as indication for different timing of residential changes, highlight the complexity of immigration processes and the need for more studies at the regional level.

A guide for an anatomically sensitive dentine microsampling and age-alignment approach for human teeth isotopic sequences.

OBJECTIVES: Stable isotope analysis of sequential dentine samples is a potentially powerful method to reveal insights into early life-histories of individuals in the past. Dentine incremental growth structures are complex, however, and current approaches that apply horizontal sectioning of demineralized tooth halves or quarters risk combining multiple growth layers and may include unwanted cementum or secondary dentine. They also require destruction of large parts of a tooth. Here, we present a less destructive and relatively straightforward protocol that reduces damage, increases temporal resolution, and improves the accuracy of age-alignment between individuals. MATERIAL AND METHODS: We outline a protocol that includes the sampling of small (1 mm diameter) cylindrical plug transects from a thin section, along with an age-alignment scheme predicated on average growth rates for dentine areas. RESULTS AND DISCUSSION: The proposed protocol is readily applicable and more anatomically sensitive than horizontal slicing. Micro-samples are smaller (in both length and depth), hence minimizing temporal overlap and avoid directions that may contravene growth pattern. They completely avoid areas where secondary and tertiary dentine or cementum can be deposited. Age-alignment is improved by using growth ratios of anatomical tooth zones. CONCLUSION: This method minimizes destruction, enables finer temporal resolution and facilitates data comparison. It can be readily combined with fluorescence imaging-based or other pre-screening methods of dentine collagen preservation.

Social structures and social relations--an archaeological and anthropological examination of three early Medieval separate burial sites in Bavaria.

As part of an interdisciplinary cooperation, three early medieval separated burial sites from central Bavaria were subjected to archaeological and anthropological examinations. Separated burial sites are probably an expression of social stratification. This paper focuses on two characteristic aspects of these separated burial sites: (1) structure of the site, and (2) biological manifestation of a social upper class. The separated burial grounds Etting/Sandfeld (31 individuals), Grossmehring (44 individuals) and Kelheim (43 individuals), all located in southern Bavaria, were analyzed. Sex and age at death of all individuals were determined, and dietary behaviour was reconstructed by means of carbon and nitrogen isotope ratios in bone collagen. Local conditions such as climate, soil conditions or the intensity of agriculture can provoke significant variations in plant delta15N-values, which could lead to a shift of the baseline values of the corresponding trophic web. To facilitate the comparison of isotopic data from different sites, delta15N values of cattle bones were taken as a reference for the human data (presuming the diet to consumer chain). The results of dietary reconstruction indicate that the populations enjoyed very good living conditions with a primarily animal protein-based diet. Furthermore, the isotope analysis revealed more detailed indications for certain individuals regarding their social status. Some individuals can even be appointed as possible chiefs of the population, since anthropological and archaeological interpretations were in total agreement: It was possible to identify persons of a higher social status based on the structure of the burial site, grave goods and the isotopic analysis.

A new method for the automated age-at-death evaluation by tooth-cementum annulation (TCA).

A valid age at death estimation is required in historical and also forensic anthropology. Tooth cementum annulation (TCA) is a method for age at death estimation of adult individuals. The method is based on light microscope images taken from tooth-root cross sections. The age is then estimated by manually counting the cementum incremental lines and adding this to the chronological age at the assumed point of tooth eruption. Manual line counting, however, is time consuming, potentially subjective and the number of individual counts is insufficient for statistical evaluations. Software developed for the automated evaluation of TCA images, that uses Fourier analysis and algorithms for image analysis and pattern recognition is presented here. It involves "line-by-line" scanning and the counting of gray scale peaks within a selected region-of-interest (ROI). Each scanning process of a particular ROI yields up to 400 counts that are subsequently statistically evaluated. This simple and time saving program seeks to substitute manual counting and supply consistent and reproducible results as well as reduce the demand of human error by eliminating unavoidable factors such as subjectivity and fatigue.