An unclean slate, discrepancies between food input and recovered protein signal from experimental foodcrusts.
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Organic residues are a rich source of biomolecular information on ancient diets. In particular, foodcrusts, charred residues on ceramics, are commonly analysed for their lipid content and to a lesser extent protein in order to identify foods, culinary practices and material culture use in past populations. However, the composition of foodcrusts and the factors behind their formation are not well understood. Here we analyse proteomic data (available via ProteomeXchange with identifier PXD059930) from foodcrusts made using a series of mixtures of protein- (salmon flesh), lipid- (beef fat) and carbohydrate-rich (beetroot) foods to investigate the relationship between the biomolecular composition of the input and the recovered signal using conventional methods applied to archaeological material. Additionally, using 3D modelling we quantify the volume of foodcrust generated by different ingredient combinations The results highlight biases in the data obtained in the analyses of organic residues both in terms of identified resources reflecting the cooked foodstuffs, e.g., an overrepresentation of fish proteins, as well as with regards to the abundance of foodcrust, for example mixtures of only salmon and beef fat resulted in relatively small amounts of foodcrust, and suggest caution in interpreting the composition of residues formed from complex mixtures of foodstuffs.
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Acknowledgements: We thank the Bioscience Technology Facility and Chemistry Department at the University of York for mass spectrometry access and support, in particular we would like to thank Dr. Adam Dowle for his support in running the samples and feedback on the manuscript. The instrumentation is part of the York Centre of Excellence in Mass Spectrometry. The centre was created thanks to a major capital investment through Science City York, supported by Yorkshire Forward with funds from the Northern Way Initiative and subsequent support from EPSRC (EP/K039660/1; EP/M028127/1). We would like to thank the YEAR Centre for their permission to use the Centre’s grounds for the burial experiment and in particular Dr. Gareth Perry for his assistance in the burial and excavation of the experimental vessels. For the morphological taxonomic verification of the Salmo salar specimens, we would like to thank Dr. Katrien Dierickx and for his assistance in figuring out Sankey diagrams we thank Dr. Jakob Hansen. Additionally, we would like to thank Dr. Claire Koenig for her advice on protein quantification. Additionally, our gratitude goes to Patrick Gibbs and James Osborn from Heritage360, University of York, for access to their 3D scanning equipment and assistance in the acquisition and analysis of the 3D data. Lastly, we would like to thank the two anonymous reviewers for their constructive comments, which helped improve the manuscript.
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1932-6203
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