Your search keyword '"Hlad, Marta"' showing total 3 results

1. Strontium isotopes and concentrations in cremated bones suggest an increased salt consumption in Gallo-Roman diet.

Author

Dalle S, Snoeck C, Sengeløv A, Salesse K, Hlad M, Annaert R, Boonants T, Boudin M, Capuzzo G, Gerritzen CT, Goderis S, Sabaux C, Stamataki E, Vercauteren M, Veselka B, Warmenbol E, and De Mulder G

Subjects

Animals, Body Remains, Bone and Bones chemistry, Diet, Isotopes analysis, Strontium analysis, Cremation, Strontium Isotopes analysis

Abstract

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 ( 87 Sr/ 86 Sr) 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 87 Sr/ 86 Sr (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 87 Sr/ 86 Sr (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 87 Sr/ 86 Sr for palaeomobility studies in populations with high salt consumption., (© 2022. The Author(s).)

Published

2022

2. Novel multidisciplinary approach detects multiple individuals within the same Late Bronze–Early Iron Age cremation graves.

Author

Sabaux, Charlotte, Snoeck, Christophe, Capuzzo, Giacomo, Veselka, Barbara, Dalle, Sarah, Warmenbol, Eugène, Stamataki, Elisavet, Hlad, Marta, Sengeløv, Amanda, Debaille, Vinciane, Boudin, Mathieu, Salesse, Kevin, Annaert, Rica, Vercauteren, Martine, and De Mulder, Guy

Subjects

ISOTOPIC analysis, STRONTIUM isotopes, IRON Age, GEOMETRIC shapes, ELEMENTAL analysis

Abstract

Cremation graves appear in different forms and shapes, from urns to simple pits and from single to plural graves. The challenging nature of highly fragmented cremated human remains renders the identification of multiple individuals within the same cremation grave rather complex. Osteological analyses alone are often insufficient to detect the presence of bone fragments from different individuals as they are small and diagnostic elements are often missing, although, detection of nonadult bone fragments within adult bone assemblages (or the other way around) points to the presence of at least two individuals—one adult and one nonadult—within the same grave. The combination of osteological analyses, radiocarbon dating, and strontium isotope ratios has proven to be particularly powerful. At different Belgian Metal Age sites, this novel multi-disciplinary approach enabled to identify the presence of bone fragments belonging to up to three different individuals within the same cremation grave who were cremated up to several centuries apart. Whether the presence of these two or three individuals in the same grave is intentional (e.g. curation) or not requires more in-depth analyses. This study shows the high level of complexity of cremation burial (intentionally or not) and shows the necessity to carry out all analytical measurements (i.e. radiocarbon dating, infrared, elemental and isotope analyses) on the same bone fragment to ensure the results are related to the same individual. [ABSTRACT FROM AUTHOR]

Published

2024

3. Multi-proxy analyses reveal regional cremation practices and social status at the Late Bronze Age site of Herstal, Belgium.

Author

Sabaux, Charlotte, Veselka, Barbara, Capuzzo, Giacomo, Snoeck, Christophe, Sengeløv, Amanda, Hlad, Marta, Warmenbol, Eugène, Stamataki, Elisavet, Boudin, Mathieu, Annaert, Rica, Dalle, Sarah, Salesse, Kevin, Debaille, Vinciane, Tys, Dries, Vercauteren, Martine, and De Mulder, Guy

Subjects

*CREMATION, *BRONZE Age, *SOCIAL status, *EXCAVATION, *STRONTIUM isotopes, *RADIOCARBON dating, *LOCAL foods

Abstract

The funerary Bronze Age culture in the Belgian part of the Meuse valley is poorly understood due to the challenging nature of cremation deposits that dominate the archaeological record. Only a few sites were analysed in that region, limiting the possibilities to reconstruct the development of Bronze Age populations in Belgium. Due to its good preservation and detailed excavation reports, the site of Herstal (Belgium) offers a unique opportunity to finally gain new insights into the life and death of those buried in the Meuse Valley during the Late Bronze Age. A total of 21 graves were analysed using a multi-proxy approach, combining grave typology, osteoarchaeology, strontium isotope ratios (87Sr/86Sr), and radiocarbon dating. The 87Sr/86Sr results show that the individuals of Herstal most likely used a variety of local food supplies while having interactions with other populations in and beyond the Meuse Valley, as demonstrated by the bronze artefacts and ceramics displaying clear influences from Germany, Southern Netherlands, and North-West France. The cemetery most likely shows a local burial style with the presence of two (or even three) individuals in several cremation deposits containing a number of privileged individuals who had access to bronze trading networks. • Multi-proxy analyses reveal regional and local burial practices. • 87Sr/86Sr from different bone fragments in the same grave aid in determining MNI. • Different radiocarbon dates within single graves show familial significance. [ABSTRACT FROM AUTHOR]

Published

2021