An extensive archaeological dental calculus dataset spanning 5000 years for ancient human oral microbiome researchEuropean Nucleotide ArchiveEuropean Nucleotide ArchiveDryad

An extensive archaeological dental calculus dataset spanning 5000 years for ancient human oral microbiome researchEuropean Nucleotide ArchiveEuropean Nucleotide ArchiveDryad

Archaeological dental calculus can provide detailed insights into the ancient human oral microbiome. We offer a multi-period, multi-site, ancient shotgun metagenomic dataset consisting of 174 samples obtained primarily from archaeological dental calculus derived from various skeletal collections in...

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Main Authors: Francesca J. Standeven, Gwyn Dahlquist-Axe, Jessica Hendy, Sarah Fiddyment, Malin Holst, Krista McGrath, Matthew Collins, Amy Mundorff, Anita Radini, Josef Wagner, Conor J. Meehan, Andrew Tedder, Camilla F. Speller
Format: Article
Language:English
Published: Elsevier 2025-08-01
Series:Data in Brief
Subjects:
Dental calculus
Metagenomics
Ancient DNA
Bioinformatics
Oral microbiome
Bioarchaeology
Online Access:http://www.sciencedirect.com/science/article/pii/S2352340925004974
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Summary:Archaeological dental calculus can provide detailed insights into the ancient human oral microbiome. We offer a multi-period, multi-site, ancient shotgun metagenomic dataset consisting of 174 samples obtained primarily from archaeological dental calculus derived from various skeletal collections in the United Kingdom. This article describes all the materials used including the skeletons’ historical period and burial location, biological sex, and age determination, data accessibility, and additional details associated with environmental and laboratory controls. In addition, this article describes the laboratory and bioinformatic methods associated with the dataset development and discusses the technical validity of the data following quality assessments, damage evaluations, and decontamination procedures. Our approach to collecting, making accessible, and evaluating bioarchaeological metadata in advance of metagenomic analysis aims to further enable the exploration of archaeological science topics such as diet, disease, and antimicrobial resistance (AMR).
ISSN:2352-3409

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