Sulfur isotope analysis of cinnabar from Roman wall paintings by elemental analysis/isotope ratio mass spectrometry - tracking the origin of archaeological red pigments and their authenticity
Details
Serval ID
serval:BIB_39CAB52D9662
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Sulfur isotope analysis of cinnabar from Roman wall paintings by elemental analysis/isotope ratio mass spectrometry - tracking the origin of archaeological red pigments and their authenticity
Journal
Rapid Communications in Mass Spectrometry
ISSN-L
0951-4198
Publication state
Published
Issued date
2010
Peer-reviewed
Oui
Volume
24
Pages
2812-2816
Language
english
Notes
ISI:000282917100004
Abstract
The most valuable pigment of the Roman wall paintings was the red color
obtained from powdered cinnabar (Minium Cinnabaris pigment), the red
mercury sulfide (HgS), which was brought from mercury (Hg) deposits in
the Roman Empire. To address the question of whether sulfur isotope
signatures can serve as a rapid method to establish the provenance of
the red pigment in Roman frescoes, we have measured the sulfur isotope
composition (delta(34) S value in parts per thousand VCDT) in samples of
wall painting from the Roman city Aventicum (Avenches, Vaud,
Switzerland) and compared them with values from cinnabar from European
mercury deposits (Almaden in Spain, Idria in Slovenia, Monte Amiata in
Italy, Moschellandsberg in Germany, and Genepy in France). Our study
shows that the delta(34) S values of cinnabar from the studied Roman
wall paintings fall within or near to the composition of Almaden
cinnabar; thus, the provenance of the raw material may be deduced. This
approach may provide information on provenance and authenticity in
archaeological, restoration and forensic studies of Roman and Greek
frescoes. Copyright (c) 2010 John Wiley & Sons, Ltd.
obtained from powdered cinnabar (Minium Cinnabaris pigment), the red
mercury sulfide (HgS), which was brought from mercury (Hg) deposits in
the Roman Empire. To address the question of whether sulfur isotope
signatures can serve as a rapid method to establish the provenance of
the red pigment in Roman frescoes, we have measured the sulfur isotope
composition (delta(34) S value in parts per thousand VCDT) in samples of
wall painting from the Roman city Aventicum (Avenches, Vaud,
Switzerland) and compared them with values from cinnabar from European
mercury deposits (Almaden in Spain, Idria in Slovenia, Monte Amiata in
Italy, Moschellandsberg in Germany, and Genepy in France). Our study
shows that the delta(34) S values of cinnabar from the studied Roman
wall paintings fall within or near to the composition of Almaden
cinnabar; thus, the provenance of the raw material may be deduced. This
approach may provide information on provenance and authenticity in
archaeological, restoration and forensic studies of Roman and Greek
frescoes. Copyright (c) 2010 John Wiley & Sons, Ltd.
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26/09/2012 15:11
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