par Dalle, Sarah;Snoeck, Christophe;Sengeløv, Amanda;Salesse, Kevin 
;Hlad, Marta;Annaert, Rica;Boonants, Tom;Boudin, Mathieu;Capuzzo, Giacomo ;Gerritzen, Carina;Goderis, Steven;Sabaux, Charlotte;Stamataki, Elisavet;Vercauteren, Martine ;Veselka, Barbara;Warmenbol, Eugène ;de Mulder, Guy
Référence Scientific reports, 12, 1, 9280
Publication Publié, 2022-12
;Hlad, Marta;Annaert, Rica;Boonants, Tom;Boudin, Mathieu;Capuzzo, Giacomo ;Gerritzen, Carina;Goderis, Steven;Sabaux, Charlotte;Stamataki, Elisavet;Vercauteren, Martine ;Veselka, Barbara;Warmenbol, Eugène ;de Mulder, GuyRéférence Scientific reports, 12, 1, 9280
Publication Publié, 2022-12
Article révisé par les pairs
| Résumé : | The high temperatures reached during cremation lead to the destruction of organic matter preventing the use of traditional isotopic methods for dietary reconstructions. Still, strontium isotope (87Sr/86Sr) and concentration ([Sr]) analyses of cremated human remains offer a novel way to assess changing consumption patterns in past populations that practiced cremation, as evidenced by a large amount of new data obtained from Metal Ages and Gallo-Roman human remains from Destelbergen, Belgium. The Gallo-Roman results show significantly higher [Sr] and a narrower interquartile range in 87Sr/86Sr (0.7093–0.7095), close to the value of modern-day seawater (0.7092). This contrasts with the Metal Ages results, which display lower concentrations and a wider range in 87Sr/86Sr (0.7094–0.7098). This typical Sr signature is also reflected in other sites and is most likely related to an introduction of marine Sr in the form of salt as a food preservative (e.g. salt-rich preserved meat, fish and fish sauce). Paradoxically, this study highlights caution is needed when using 87Sr/86Sr for palaeomobility studies in populations with high salt consumption. |
