Ink from ancient Egyptian papyri contains copper
Until recently, it was assumed that the ink used for writing was primarily carbon-based at least until the fourth and fifth centuries AD. But in a new University of Copenhagen study, analyses of 2,000-year-old papyri fragments with X-ray microscopy show that black ink used by Egyptian scribes also contained copper – an element previously not identified in ancient ink.
In a study published today in Scientific Reports, a cross-disciplinary team of researchers show that Egyptians used carbon inks that contained copper, which has not been identified in ancient ink before. Although the analysed papyri fragments were written over a period of 300 years and from different geographical regions, the results did not vary significantly:
“The composition of the copper-containing carbon inks showed no significant differences that could be related to time periods or geographical locations, which suggests that the ancient Egyptians used the same technology for ink production throughout Egypt from roughly 200 BC to 100 AD,” says Egyptologist and first author of the study Thomas Christiansen from the University of Copenhagen.
The papyri fragments were investigated with advanced synchrotron radiation based X-ray microscopy equipment at the European Synchrotron Radiation Facility in Grenoble as part of the cross-disciplinary CoNext project, and the particles found in the inks indicate that they were by-products of the extraction of copper from sulphurous ores.
No unique ink signature
The studied papyri fragments all form part of larger manuscripts belonging to the Papyrus Carlsberg Collection at the University of Copenhagen, more specifically from two primary sources: the private papers of an Egyptian soldier named Horus, who was stationed at a military camp in Pathyris, and from the Tebtunis temple library, which is the only surviving large-scale institutional library from ancient Egypt.
“None of the four inks studied here was completely identical, and there can even be variations within a single papyrus fragment, suggesting that the composition of ink produced at the same location could vary a great deal. This makes it impossible to produce maps of ink signatures that otherwise could have been used to date and place papyri fragments of uncertain provenance,” explains Thomas Christiansen but adds:
“However, as many papyri have been handed down to us as fragments, the observation that ink used on individual manuscripts can differ from other manuscripts from the same source is good news insofar as it might facilitate the identification of fragments belonging to specific manuscripts or sections thereof.”
According to the researchers, their results will also be useful for conservation purposes as detailed knowledge of the material’s composition could help museums and collections make the right decisions regarding conservation and storage of papyri, thus ensuring their preservation and longevity.
Contact
Egyptologist Thomas Christiansen
The Papyrus Carlsberg Collection
CoNext – Copenhagen University and Neutron and X-ray techniques
Mail: thomas.christiansen@museoegizio.it
Phone: + 45 22 46 29 72
For questions about the European Synchrotron Radiation Facility,
Professor Sine Larsen
Department of Chemistry
University of Copenhagen
Mail: sine@chem.ku.dk
Phone: +45 21 18 11 23
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Contact
Egyptologist Thomas Christiansen
The Papyrus Carlsberg Collection
CoNext – Copenhagen University and Neutron and X-ray techniques
Mail: thomas.christiansen@museoegizio.it
Phone: + 45 22 46 29 72
For questions about the European Synchrotron Radiation Facility,
Professor Sine Larsen
Department of Chemistry
University of Copenhagen
Mail: sine@chem.ku.dk
Phone: +45 21 18 11 23
Press officer Carsten Munk Hansen
Faculty of Humanities
Phone: + 45 28 75 80 23
Mail: carstenhansen@hum.ku.dk