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Chemical Alteration and Use of Beeswax Through Time: Accelerated Ageing Tests and Analysis of Archaeological Samples from Various Environmental Contexts
Article first published online: 10 MAR 2003
DOI: 10.1111/1475-4754.00036
University of Oxford, 2001
1475-4754/asset/cover.gif?v=1&s=8fae827b9e8ca6cf3bf767eac5007105b9b1f6ca "Archaeometry")
Additional Information
How to Cite
Regert, M., Colinart, S., Degrand, L. and Decavallas, O. (2001), Chemical Alteration and Use of Beeswax Through Time: Accelerated Ageing Tests and Analysis of Archaeological Samples from Various Environmental Contexts. Archaeometry, 43: 549–569. doi: 10.1111/1475-4754.00036
Publication History
- Issue published online: 10 MAR 2003
- Article first published online: 10 MAR 2003
- Abstract
- Cited By
Keywords:
- GREECE;
- FRANCE;
- FAYUM;
- NEOLITHIC;
- ROMAN PERIOD;
- FOURIER TRANSFORM INFRARED SPECTROMETRY;
- GAS CHROMATOGRAPHY;
- MASS SPECTROMETRY;
- DEGRADATION EXPERIMENT;
- BEESWAX;
- POTTERY;
- STRAINER;
- N-ALKANES;
- ESTERS;
- PHENOLIC COMPOUNDS
In order better to interpret the chemical composition of ancient organic residues and artefacts containing beeswax, the degradation of this raw material was accelerated in the laboratory by controlled heating. During the course of degradation, deposits were condensed above the beeswax. Both degraded beeswax and these deposits were analysed. These experiments definitively proved that n-alkane depletion is due to a sublimation process that depends on the molecular weight of these hydrocarbons. The formation of benzoic and cinnamic derivatives due to the degradation of flavonoid precursors initially present in beeswax has also been highlighted for the first time. The analysis of samples from Neolithic and Roman periods led to the identification of beeswax characterized by different degradation patterns linked to their environmental context.