Far from home: A multi-analytical approach revealing the journey of an African-born individual to imperial Rome

Salesse, Kévin; Dufour, Élise; Balter, Vincent; Tykot, Robert H.; Maaranen, Nina; Rivollat, Maïté; Kharobi, Arwa; Deguilloux, Marie‐France; Pémonge, Marie‐Hélène; Brůžek, Jaroslav; Castex, Dominique

doi:10.1016/j.jasrep.2021.103011

Cited by 1 publication

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“…The small sample size prevents tests of statistical significance, and our observed differences between individuals are limited to five dental traits. Though a hindrance, this does not make all analyses impossible, evidenced by a recent publication where similarly few dental traits were useful when investigating the provenance of an individual buried in a Roman catacomb (Salesse et al, 2021). When combined with other lines of research and contextual information, even a qualitative interpretation such as the one presented here can be considered justified when keeping in mind the limitations.…”

Section: Resultsmentioning

confidence: 99%

Jordanian migration and mobility in the Middle Bronze Age (ca. 2100–1550 BCE) at Pella

Stantis

Maaranen

Kharobi

et al. 2021

Intl J of Osteoarchaeology

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The site of Pella, located in the foothills of the east Jordan valley, was a prosperous city–state throughout the Middle Bronze Age (MBA, ca. 2000–1500 BCE). As part of a widespread trading network, Pella enjoyed extensive socio‐economic relationships with Egypt, Cyprus, and the Aegean, Anatolia, and Babylonia during this period. We report isotopic analysis (87Sr/86Sr, δ18O, and δ13C) from enamel of 22 human permanent second molars of which 13 second lower molars were used for an additional biodistance analysis based on ASUDAS. The multidisciplinary approach investigates the ancestral background of MBA Pella and the degree of temporary or more permanent relocation from other settlements. Ancillary to carbonate isotope analysis for migration investigation, dietary information in the form of δ13Ccarbonate was also collected. δ13Ccarbonate values (mean −12.3‰ ± 0.4 SD) suggest a uniform diet reliant on C3 cereals and legumes as crops and animal fodder, adhering to expected Bronze Age Levantine dietary norms. Two methods are used to identify non‐locals. Using a biospheric baseline, three individuals with non‐local 87Sr/86Sr ratios are identified. Bagplot analysis of both 87Sr/86Sr and δ18O data suggests that three individuals (14%) grew up elsewhere; two individuals who were already identified as 87Sr/86Sr outliers using biospheric data and one more with outlying δ18O values. All individuals identified as non‐locals, using either method, are from one tomb, Tomb 62. The dental nonmetric traits indicated diverse morphology and subsequent ancestry for Tomb 62 (11/13), whereas primary burials (2/13) clustered together. The commingled condition of Tomb 62 material prevented a more exhaustive biodistance analysis, but the tentative results coincide with interpretations of the tomb. Significant movements of populations throughout the Middle Bronze Age are evidenced through funerary rituals and architecture, and this study demonstrates that Pella, thought to be peripheral, nonetheless had some permanent movement evidenced through isotopes and ancestry analysis.

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Section: Resultsmentioning

confidence: 99%