Strontium isotope analysis on cremated human remains from Stonehenge support links with west Wales

Christophe Snoeck; John Pouncett; Philippe Claeys; Steven Goderis; Nadine Mattielli; Mike Parker Pearson; Christie Willis; Antoine Zazzo; Julia A. Lee-Thorp; Rick J. Schulting

doi:10.1038/s41598-018-28969-8

Strontium isotope analysis on cremated human remains from Stonehenge support links with west Wales

Christophe Snoeck, John Pouncett, Philippe Claeys, Steven Goderis, Nadine Mattielli, Mike Parker Pearson, Christie Willis, Antoine Zazzo, Julia A. Lee-Thorp, Rick J. Schulting

Onderzoeksoutput: Article › peer review

68 Citaten (Scopus)

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Cremated human remains from Stonehenge provide direct evidence on the life of those few select individuals buried at this iconic Neolithic monument. The practice of cremation has, however, precluded the application of strontium isotope analysis of tooth enamel as the standard chemical approach to study their origin. New developments in strontium isotopic analysis of cremated bone reveal that at least 10 of the 25 cremated individuals analysed did not spend their lives on the Wessex chalk on which the monument is found. Combined with the archaeological evidence, we suggest that their most plausible origin lies in west Wales, the source of the bluestones erected in the early stage of the monument’s construction. These results emphasise the importance of inter-regional connections involving the movement of both materials and people in the construction and use of Stonehenge.

Originele taal-2	English
Artikelnummer	10790
Pagina's (van-tot)	10790
Tijdschrift	Scientific Reports - Nature
Volume	8
Nummer van het tijdschrift	1
DOI's	https://doi.org/10.1038/s41598-018-28969-8
Status	Published - 2 aug 2018

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10.1038/s41598-018-28969-8

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2 Afgelopen
2 Actief

OZR3120: Brussel-Oxford NEtwork voor de studie van bioapatiet als een slecht geëxploiteerd archief van oude voeding, ecologie en migratie van menselijke en faunale fossielen.
Claeys, P., Snoeck, C., Schulting, R. & Matielli, N.
29/03/17 → 27/03/29
Project: Fundamenteel
OZR2725: ULB-VUB Joint Research Group: Brussels Institute for Geochemical Techniques in Earth Sciences - BIGE
Claeys, P. & Mattielli, N.
5/12/14 → 2/10/28
Project: Fundamenteel
FWOTM886: Dood en Verband – Een Interdisciplinaire Onderzoek naar Crematie
Snoeck, C.
1/10/17 → 30/09/20
Project: Fundamenteel

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Strontium isotope analysis on cremated human remains from Stonehenge support links with west Wales. / Snoeck, Christophe; Pouncett, John; Claeys, Philippe ; Goderis, Steven; Mattielli, Nadine; Pearson, Mike Parker; Willis, Christie; Zazzo, Antoine; Lee-Thorp, Julia A.; Schulting, Rick J.

In: Scientific Reports - Nature, Vol. 8, Nr. 1, 10790, 02.08.2018, blz. 10790.

Onderzoeksoutput: Article › peer review

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AU - Claeys, Philippe

AU - Goderis, Steven

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AU - Pearson, Mike Parker

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Strontium isotope analysis on cremated human remains from Stonehenge support links with west Wales

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Projecten

OZR3120: Brussel-Oxford NEtwork voor de studie van bioapatiet als een slecht geëxploiteerd archief van oude voeding, ecologie en migratie van menselijke en faunale fossielen.

OZR2725: ULB-VUB Joint Research Group: Brussels Institute for Geochemical Techniques in Earth Sciences - BIGE

FWOTM886: Dood en Verband – Een Interdisciplinaire Onderzoek naar Crematie

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