Interpreting Lipid Residues in Archaeological Ceramics: Preliminary Results from Laboratory Simulations of Vessel Use and Burial

Richard P. Evershed; Stephanie Charters; Anita Quye

doi:10.1557/PROC-352-85

Abstract

During the past four and a half years this group has been involved in a programme of development and testing of methods for the study of organic residues in archaeological ceramics. The analytical approach used is based on solvent extraction of powdered potsherds to release lipids absorbed in the ceramic fabric, with gas chromatography (GC) and combined gas chromatography/mass spectrometry (GC/MS) being used to characterise andquantify the individual components of the residues. Our most recent work has focused on an assemblage of more than sixty reconstructed vessels of Late Saxon/early medievaldate for which full or partial profiles were available. Analysis of potsherds sampled from different parts of these vessels, e.g. rim, body and base, have shown that different concentrations of lipid can exist in different parts of a vessel. This observation has important consequences for the sampling of potsherds for organic residue analysis. More significantly, these results indicate that the variation in the concentration of lipid in different parts of a vessel may reflect the way in which the vessel was used in antiquity. This paper discusses the results obtained from preliminary laboratory simulation experiments which have been carried out using replica vessels to provide supporting evidence for this potentially new approach to interpreting vessel use. Consideration will also be given to the possibility of using potsherds from these replica vessels in laboratory experiments aimed at simulating the decay of absorbed lipids during burial.

References

REFERENCES

1. Heron, C. and Evershed, R.P., in Archaeological Method and Theory 5, ed. Schiffer, M.B. (University of Arizona Press, Arizona, 1993) pp. 247–284.Google Scholar

2. Evershed, R.P., Heron, C. and Goad, L.J., Analyst 115, 1339–1342 (1990).Google Scholar

3. Evershed, R.P., Heron, C., Charters, S. and Goad, L.J., Proc. Brit. Acad, 77, 187–208 (1992).Google Scholar

4. Charters, S., Evershed, R.P., Blinkhorn, P. and Denham, V., Archaeometry (in press).Google Scholar

5. Evershed, R.P., Arnot, K.I., Collister, J., Eglinton, G. and Charters, S., Analyst 119, 909–914 (1994).Google Scholar

6. Rottlander, R.C.A. and Schlichtherle, H., Archaeo-physica 10, 260–267 (1979).Google Scholar

7. Condamin, J., Formenti, F., Metais, M.O., Michel, M. and Blond, P., Archaeometry 18, 195–201 (1976)Google Scholar

8. Passi, S., Rothchild-Boros, M.C., Fasella, P., Nazzaro-Porro, M. and Whitehouse, D., J. Lipid Res. 22, 778–784 (1981).Google Scholar

9. Patrick, M., Koning, A.J. and Smith, A.B., Archaeometry 27, 231–236 (1985).Google Scholar

10. Hurst, W.J., Martin, R.A., Tarka, S.M. and Hall, G.D., J. Chromatogr. 466, 279 (1989).Google Scholar

11. Evershed, R.P., Heron, C. and Goad, L.J., Antiquity 65, 540–544 (1991).Google Scholar

12. Charters, S., Evershed, R.P., Goad, L.J., Blinkhorn, P.W. and Denham, V., Archaeometry 35, 211–223 (1993).Google Scholar

13. Hamilton, R.J. and Hamilton, S., editors, Lipid Analysis: A Practical Approach (Oxford University Press, Oxford, 1992).Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Dudd, Stephanie N. Regert, Martine and Evershed, Richard P. 1998. Assessing microbial lipid contributions during laboratory degradations of fats and oils and pure triacylglycerols absorbed in ceramic potsherds. Organic Geochemistry, Vol. 29, Issue. 5-7, p. 1345.

Jones, M. K. Briggs, D. E. G. Eglington, G. Hagelberg, E. Evershed, Richard P. Dudd, Stephanie N. Charters, Stephanieation Mottram, Hazel Stott, Andrew W. Raven, Anthony van Bergen, Pim F. and Bland, Helen A. 1999. Lipids as carriers of anthropogenic signals from prehistory. Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences, Vol. 354, Issue. 1379, p. 19.

Dudd, Stephanie N. Evershed, Richard P. and Gibson, Alex M. 1999. Evidence for Varying Patterns of Exploitation of Animal Products in Different Prehistoric Pottery Traditions Based on Lipids Preserved in Surface and Absorbed Residues. Journal of Archaeological Science, Vol. 26, Issue. 12, p. 1473.

Mottram, H.R Dudd, S.N Lawrence, G.J Stott, A.W and Evershed, R.P 1999. New chromatographic, mass spectrometric and stable isotope approaches to the classification of degraded animal fats preserved in archaeological pottery. Journal of Chromatography A, Vol. 833, Issue. 2, p. 209.

Vandiver, Pamela 2001. The Role of Materials Research in Ceramics and Archaeology. Annual Review of Materials Research, Vol. 31, Issue. 1, p. 373.

Evershed, Richard P. Dudd, Stephanie N. Copley, Mark S. Berstan, Robert Stott, Andrew W. Mottram, Hazel Buckley, Stephen A. and Crossman, Zoe 2002. Chemistry of Archaeological Animal Fats. Accounts of Chemical Research, Vol. 35, Issue. 8, p. 660.

2008. Archaeological Chemistry. p. 383.

Ghezzi, Iván 2011. El análisis composicional en el estudio de la producción y distribución de la cerámica prehispánica. Bulletin de l’Institut français d’études andines, p. 1.

Regert, M. 2011. Analytical strategies for discriminating archeological fatty substances from animal origin. Mass Spectrometry Reviews, Vol. 30, Issue. 2, p. 177.

Mayyas, A. Stern, B. Gillmore, G. Coninghamd, R. and Nashli, H. Fazeli 2012. Beeswax Preserved in a Late Chalcolithic Bevelled-Rim Bowl from the Tehran Plain, Iran. Iran, Vol. 50, Issue. 1, p. 13.

Budja, Mihael 2014. Neolithic pottery and the biomolecular archaeology of lipids. Documenta Praehistorica, Vol. 41, Issue. , p. 196.

Drieu, Léa and Regert, Martine 2015. Substances naturelles liées aux céramiques archéologiques. Les Nouvelles de l'archéologie, p. 54.

Spiteri, Cynthianne Muntoni, Italo M. and Craig, Oliver E. 2017. Times of Neolithic Transition along the Western Mediterranean. p. 253.

Drieu, L. Horgnies, M. Binder, D. Pétrequin, P. Pétrequin, A.‐M. Peche‐Quilichini, K. Lachenal, T. and Regert, M. 2019. Influence of porosity on lipid preservation in the wall of archaeological pottery. Archaeometry, Vol. 61, Issue. 5, p. 1081.

Korf, Ansgar Hammann, Simon Schmid, Robin Froning, Matti Hayen, Heiko and Cramp, Lucy J. E. 2020. Digging deeper - A new data mining workflow for improved processing and interpretation of high resolution GC-Q-TOF MS data in archaeological research. Scientific Reports, Vol. 10, Issue. 1,

Tarifa-Mateo, N. Regert, M. Craig, O.E. Rosell-Melé, A. Clop, X. and Saña, M. 2021. Pottery use in the mining site of variscite Mines de Gavà (Barcelona, Spain) during the 4th millennium BC based on organic residue analysis. Journal of Archaeological Science: Reports, Vol. 38, Issue. , p. 103080.

Garnier, Nicolas and Vedeler, Marianne 2021. Revealing Medieval culinary practices in Norway: A first metabolomic-based approach. Journal of Archaeological Science: Reports, Vol. 40, Issue. , p. 103206.

Mayyas, Abdulraouf Douglas, Khaled Al-Qudah, Mahmoud Al-Ajlouny, Fardous and Kreshan, Dima 2022. Lipid markers in archaeological pottery vessels excavated at Jneneh Site, in North-Central Jordan. Journal of Archaeological Science: Reports, Vol. 43, Issue. , p. 103410.

Drieu, L. Regert, M. Mazuy, A. Vieugué, J. Bocoum, H. and Mayor, A. 2022. Relationships Between Lipid Profiles and Use of Ethnographic Pottery: an Exploratory Study. Journal of Archaeological Method and Theory, Vol. 29, Issue. 4, p. 1294.

Polla, Silvia and Springer, Andreas 2022. Handbook of Cultural Heritage Analysis. p. 1075.

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Interpreting Lipid Residues in Archaeological Ceramics: Preliminary Results from Laboratory Simulations of Vessel Use and Burial

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Interpreting Lipid Residues in Archaeological Ceramics: Preliminary Results from Laboratory Simulations of Vessel Use and Burial

Abstract

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REFERENCES

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