Rebecca Van Sessen scite author profile

Objectives The current study seeks to determine if a sample of foragers, farmers, and pastoralists are distinguishable based on their dental microwear texture signatures. Materials and methods The study included a sample of 719 individuals from 51 archeological sites (450 farmers, 192 foragers, 77 pastoralists). All were over age 12 and sexes were pooled. Using a Sensofar® white‐light confocal profiler we collected dental microwear texture analysis (DMTA) data from a single first or second molar from each individual. We leveled and cleaned data clouds following standard procedures and analyzed the data with Sfrax® and Toothfrax® software. The DMTA variables were complexity and anisotropy. Statistics included ANOVA with partial eta squared and Hedges's g. We also performed a follow‐up K‐means cluster analysis. Results We found significant differences between foragers and farmers and pastoralists for complexity and anisotropy, with foragers having greater complexity than either the farmers or the pastoralists. The farmers and pastoralists had greater anisotropy than the foragers. The Old World foragers had significantly higher anisotropy values than New World foragers. Old and New World farmers did not differ. Among the Old World farmers, those dating from the Neolithic through the Late Bronze Age had higher complexity values than those from the Iron Age through the medieval period. The cluster analysis discerned foragers and farmers but also indicated similarity between hard food foragers and hard food farmers. Discussion Our findings reaffirm that DMTA is capable of distinguishing human diets. We found that foragers and farmers, in particular, differ in their microwear signatures across the globe. There are some exceptions, but nothing that would be unexpected given the range of human diets and food preparation techniques. This study indicates that in general DMTA is an efficacious means of paleodietary reconstruction in humans.

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Dental microwear texture analysis in bioarchaeology

Schmidt

Zaatari

Sessen

2020

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Determining onset of significant facial pathology using dental wear and microwear texture analysis: a case study from the Middle Archaic (~5,500 BP) of Indiana.

Casserly¹,

Sessen²,

Schmidt³

2018

DAJ

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Paleopathologists face complicated presentations of osteological conditions that ac-crued over a considerable period of ill-health. Determining the relative sequence of symptoms and how long the individual lived with them is critical to understanding disease onset and progression in the body and may help to identify a specific disease. This paper describes an atypical presentation of the dentition associated with a 5,000-year-old case of treponemal disease. This circumstance led to a cessation of macrowear, which allowed for an estimation of the age when the jaw began to profoundly deform. This paper also summarizes molar microwear texture analysis (DMTA) that was employed in order to determine if the diet of the victim prior to death was con-sistent with other people from the site.

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Contributors

Anderson¹,

Baiges-Sotos²,

Becam³

et al. 2020

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