TY - JOUR
T1 - The Roman way
T2 - Investigating the cremation conditions during the Roman period in Belgium using a multi-proxy and multi-sampling approach
AU - Stamataki, Elisavet
AU - Salesse, Kevin
AU - Capuzzo, Giacomo
AU - Kontopoulos, Ioannis
AU - Hlad, Marta
AU - Dalle, Sarah
AU - Sabaux, Charlotte
AU - Veselka, Barbara
AU - Annaert, Rica
AU - Boudin, Mathieu
AU - Claeys, Philippe
AU - Sengeløv, Amanda
AU - Vercauteren, Martine
AU - Warmenbol, Eugène
AU - Claes, Britt
AU - Destexhe, Guy
AU - Cattelain, Laureline
AU - Willems, Sonja
AU - Mulder, Guy De
AU - Snoeck, Christophe
N1 - Funding Information:
This research is part of the CRUMBEL project (\u201CCRemations, Urns and Mobility: ancient population dynamics in BELgium\u201D), funded by Fonds Wetenschappelijk Onderzoek- Vlaanderen (FWO) and the Fonds de la Recherche Scientifique (F.R.S.-FNRS) within the framework of the Excellence of Science (EOS) program (n\u00B030999782) in Belgium. Elisavet Stamataki and Marta Hlad thank FWO for their doctoral fellowships. Amanda Sengel\u00F8v thanks F.R.S.-FNRS for her doctoral fellowship. We are thankful to David Verstraeten (AMGC Research Unit, VUB) for his help with the stable isotope analysis. The authors also thank the Research Foundation Flanders (FWO-Hercules program) for supporting the upgrade of the stable isotope laboratory and the acquisition of FTIR-ATR instrumentation. We would like to also acknowledge support from VUB Strategic Research Program.
Funding Information:
This research is part of the CRUMBEL project (\u201CCRemations, Urns and Mobility: ancient population dynamics in BELgium\u201D), funded by Fonds Wetenschappelijk Onderzoek- Vlaanderen, Belgium (FWO) and the Fonds de la Recherche Scientifique, Belgium (F.R.S.-FNRS) within the framework of the Excellence of Science (EOS) program (n\u00B030999782) in Belgium. Elisavet Stamataki (11A6221N) and Marta Hlad (11F1122N) thank FWO Belgium for their doctoral fellowships. Amanda Sengel\u00F8v thanks F.R.S.-FNRS, Belgium (40001875) for her doctoral fellowship. We are thankful to David Verstraeten (AMGC Research Unit, VUB, Belgium) for his help with the stable isotope analysis. The authors also thank the Research Foundation Flanders, Belgium (FWO-Hercules program) for supporting the upgrade of the stable isotope laboratory and the acquisition of FTIR-ATR instrumentation. We would like to also acknowledge support from VUB Strategic Research Program, Belgium.
Publisher Copyright:
© 2025 Elsevier Ltd
PY - 2025/6
Y1 - 2025/6
N2 - This study assesses cremation conditions in the Roman period using a multi-proxy analysis (FTIR-ATR and carbon and oxygen isotope analysis) on 332 burned bones from five Belgian Gallo-Roman cemeteries. The results suggest similar pyre structure, size, temperature, and body positioning across Gallo-Roman cremations. However, high variability in δ13C and δ18O values indicates differences in fuel selection and environmental factors. The wide δ13C range likely reflects the use of multiple wood types (e.g., Quercus sp./oak, F. sylvatica/beech) and different tree parts (e.g., trunk, branch, stump) in pyre construction. In contrast, δ18O variation may relate to quenching methods and/or seasonal and weather conditions during combustion. Differences were also observed in cremation conditions between the Metal Ages and the Gallo-Roman cremations from Belgium, with Roman cremations presenting better oxygen availability during combustion. Finally, the Gallo-Roman cemetery of Fouches is particularly interesting, as it dates to the Early Roman period and presents similarities in ventilation conditions with the cemeteries from the Metal Ages instead of the other Gallo-Roman cemeteries. The evidence from Fouches suggests a gradual transition from the Metal Ages to Roman cremation practices. The dating of Fouches to the Early Roman period could potentially explain that Roman cremation expertise was not immediately widespread but rather transferred gradually to the edges of the Roman Empire.
AB - This study assesses cremation conditions in the Roman period using a multi-proxy analysis (FTIR-ATR and carbon and oxygen isotope analysis) on 332 burned bones from five Belgian Gallo-Roman cemeteries. The results suggest similar pyre structure, size, temperature, and body positioning across Gallo-Roman cremations. However, high variability in δ13C and δ18O values indicates differences in fuel selection and environmental factors. The wide δ13C range likely reflects the use of multiple wood types (e.g., Quercus sp./oak, F. sylvatica/beech) and different tree parts (e.g., trunk, branch, stump) in pyre construction. In contrast, δ18O variation may relate to quenching methods and/or seasonal and weather conditions during combustion. Differences were also observed in cremation conditions between the Metal Ages and the Gallo-Roman cremations from Belgium, with Roman cremations presenting better oxygen availability during combustion. Finally, the Gallo-Roman cemetery of Fouches is particularly interesting, as it dates to the Early Roman period and presents similarities in ventilation conditions with the cemeteries from the Metal Ages instead of the other Gallo-Roman cemeteries. The evidence from Fouches suggests a gradual transition from the Metal Ages to Roman cremation practices. The dating of Fouches to the Early Roman period could potentially explain that Roman cremation expertise was not immediately widespread but rather transferred gradually to the edges of the Roman Empire.
KW - Burning conditions
KW - Carbon & Oxygen isotope analysis
KW - Cremated bones
KW - FTIR-ATR
KW - Gallo-Roman cremations
UR - http://www.scopus.com/inward/record.url?scp=105002904392&partnerID=8YFLogxK
U2 - 10.1016/j.jasrep.2025.105156
DO - 10.1016/j.jasrep.2025.105156
M3 - Article
AN - SCOPUS:105002904392
SN - 2352-409X
VL - 64
SP - 1
EP - 16
JO - Journal of Archaeological Science: Reports
JF - Journal of Archaeological Science: Reports
M1 - 105156
ER -