Aarhus Universitets segl

English

Du er her: AU » Om AU » Organisation » Aquatic resource consumption at the Odense leprosarium

Om AU

Aquatic resource consumption at the Odense leprosarium: Advancing the limits of palaeodiet reconstruction with amino acid δ13C measurements

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avisTidsskriftartikelForskningpeer review

Standard

Aquatic resource consumption at the Odense leprosarium: Advancing the limits of palaeodiet reconstruction with amino acid δ13C measurements. / Brozou, Anastasia; Fuller, Benjamin T.; Grimes, Vaughan et al.
I: Journal of Archaeological Science, Bind 141, 105578, 05.2022.

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avisTidsskriftartikelForskningpeer review

Harvard

Brozou, A, Fuller, BT, Grimes, V, Van Biesen, G, Ma, Y, Boldsen, JL & Mannino, MA 2022, 'Aquatic resource consumption at the Odense leprosarium: Advancing the limits of palaeodiet reconstruction with amino acid δ13C measurements', Journal of Archaeological Science, bind 141, 105578. https://doi.org/10.1016/j.jas.2022.105578

APA

Brozou, A., Fuller, B. T., Grimes, V., Van Biesen, G., Ma, Y., Boldsen, J. L., & Mannino, M. A. (2022). Aquatic resource consumption at the Odense leprosarium: Advancing the limits of palaeodiet reconstruction with amino acid δ13C measurements. Journal of Archaeological Science, 141, [105578]. https://doi.org/10.1016/j.jas.2022.105578

CBE

Brozou A, Fuller BT, Grimes V, Van Biesen G, Ma Y, Boldsen JL, Mannino MA. 2022. Aquatic resource consumption at the Odense leprosarium: Advancing the limits of palaeodiet reconstruction with amino acid δ13C measurements. Journal of Archaeological Science. 141:Article 105578. https://doi.org/10.1016/j.jas.2022.105578

MLA

Brozou, Anastasia et al. "Aquatic resource consumption at the Odense leprosarium: Advancing the limits of palaeodiet reconstruction with amino acid δ13C measurements". Journal of Archaeological Science. 2022. 141. https://doi.org/10.1016/j.jas.2022.105578

Vancouver

Brozou A, Fuller BT, Grimes V, Van Biesen G, Ma Y, Boldsen JL et al. Aquatic resource consumption at the Odense leprosarium: Advancing the limits of palaeodiet reconstruction with amino acid δ13C measurements. Journal of Archaeological Science. 2022 maj;141:105578. doi: 10.1016/j.jas.2022.105578

Author

Brozou, Anastasia ; Fuller, Benjamin T. ; Grimes, Vaughan et al. / Aquatic resource consumption at the Odense leprosarium : Advancing the limits of palaeodiet reconstruction with amino acid δ13C measurements. I: Journal of Archaeological Science. 2022 ; Bind 141.

Bibtex

@article{a8825dd8fbd04bccb6d2421f8426807b,
title = "Aquatic resource consumption at the Odense leprosarium: Advancing the limits of palaeodiet reconstruction with amino acid δ13C measurements",
abstract = "Dietary patterns of leprosy patients from the medieval leprosarium at Odense (Denmark) were investigated via carbon isotope ratio analysis of individual amino acids (δ13CAA) in bone collagen. The aim of this research was to explore in detail the consumption of aquatic resources (freshwater and marine) by these individuals; especially during the last few years of life, which were likely spent in the leprosy hospital. The analysis was conducted on ribs (n = 30) and long bones (n = 10) from 30 individuals, as well as on 9 local and contemporary faunal samples. A comparison of the Odense δ13CAA results with published δ13CAA values from the Baltic Sea region indicate that the diet was primarily terrestrial, but 12 of the 30 individuals (40%) consumed a mixed terrestrial-aquatic diet based on Δ13CVal-Phe values. Further, comparison of the rib-long bone pairs from 10 individuals found statistically significant differences in the Δ13CVal-Phe and Δ13CGly-Phe results, but not the δ13CLys results. This intra-individual dietary difference is also supported by MLA-PCA, and tentatively suggests these leprosy patients increased their consumption of marine protein over the last few years of life, indicating perhaps an institutional dietary program in the leprosarium. This work represents one of the largest archaeological δ13CAA studies in Europe and the first to compare bones with different turnover rates. Compound specific isotope analysis of δ13CAA has great potential to reveal subtle intra-individual dietary shifts that may remain undetected by bulk isotopic analysis.",
keywords = "Amino acids, Aminoisoscapes, Bone turnover, GC-IRMS, Leprosy, Medieval Denmark",
author = "Anastasia Brozou and Fuller, {Benjamin T.} and Vaughan Grimes and {Van Biesen}, Geert and Ying Ma and Boldsen, {Jesper L.} and Mannino, {Marcello A.}",
note = "Publisher Copyright: {\textcopyright} 2022",
year = "2022",
month = may,
doi = "10.1016/j.jas.2022.105578",
language = "English",
volume = "141",
journal = "Journal of Archaeological Science",
issn = "0305-4403",
publisher = "Academic Press",

}

RIS

TY - JOUR

T1 - Aquatic resource consumption at the Odense leprosarium

T2 - Advancing the limits of palaeodiet reconstruction with amino acid δ13C measurements

AU - Brozou, Anastasia

AU - Fuller, Benjamin T.

AU - Grimes, Vaughan

AU - Van Biesen, Geert

AU - Ma, Ying

AU - Boldsen, Jesper L.

AU - Mannino, Marcello A.

N1 - Publisher Copyright: © 2022

PY - 2022/5

Y1 - 2022/5

N2 - Dietary patterns of leprosy patients from the medieval leprosarium at Odense (Denmark) were investigated via carbon isotope ratio analysis of individual amino acids (δ13CAA) in bone collagen. The aim of this research was to explore in detail the consumption of aquatic resources (freshwater and marine) by these individuals; especially during the last few years of life, which were likely spent in the leprosy hospital. The analysis was conducted on ribs (n = 30) and long bones (n = 10) from 30 individuals, as well as on 9 local and contemporary faunal samples. A comparison of the Odense δ13CAA results with published δ13CAA values from the Baltic Sea region indicate that the diet was primarily terrestrial, but 12 of the 30 individuals (40%) consumed a mixed terrestrial-aquatic diet based on Δ13CVal-Phe values. Further, comparison of the rib-long bone pairs from 10 individuals found statistically significant differences in the Δ13CVal-Phe and Δ13CGly-Phe results, but not the δ13CLys results. This intra-individual dietary difference is also supported by MLA-PCA, and tentatively suggests these leprosy patients increased their consumption of marine protein over the last few years of life, indicating perhaps an institutional dietary program in the leprosarium. This work represents one of the largest archaeological δ13CAA studies in Europe and the first to compare bones with different turnover rates. Compound specific isotope analysis of δ13CAA has great potential to reveal subtle intra-individual dietary shifts that may remain undetected by bulk isotopic analysis.

AB - Dietary patterns of leprosy patients from the medieval leprosarium at Odense (Denmark) were investigated via carbon isotope ratio analysis of individual amino acids (δ13CAA) in bone collagen. The aim of this research was to explore in detail the consumption of aquatic resources (freshwater and marine) by these individuals; especially during the last few years of life, which were likely spent in the leprosy hospital. The analysis was conducted on ribs (n = 30) and long bones (n = 10) from 30 individuals, as well as on 9 local and contemporary faunal samples. A comparison of the Odense δ13CAA results with published δ13CAA values from the Baltic Sea region indicate that the diet was primarily terrestrial, but 12 of the 30 individuals (40%) consumed a mixed terrestrial-aquatic diet based on Δ13CVal-Phe values. Further, comparison of the rib-long bone pairs from 10 individuals found statistically significant differences in the Δ13CVal-Phe and Δ13CGly-Phe results, but not the δ13CLys results. This intra-individual dietary difference is also supported by MLA-PCA, and tentatively suggests these leprosy patients increased their consumption of marine protein over the last few years of life, indicating perhaps an institutional dietary program in the leprosarium. This work represents one of the largest archaeological δ13CAA studies in Europe and the first to compare bones with different turnover rates. Compound specific isotope analysis of δ13CAA has great potential to reveal subtle intra-individual dietary shifts that may remain undetected by bulk isotopic analysis.

KW - Amino acids

KW - Aminoisoscapes

KW - Bone turnover

KW - GC-IRMS

KW - Leprosy

KW - Medieval Denmark

UR - http://www.scopus.com/inward/record.url?scp=85126559095&partnerID=8YFLogxK

U2 - 10.1016/j.jas.2022.105578

DO - 10.1016/j.jas.2022.105578

M3 - Journal article

AN - SCOPUS:85126559095

VL - 141

JO - Journal of Archaeological Science

JF - Journal of Archaeological Science

SN - 0305-4403

M1 - 105578

ER -