Portable Raman verification and quantification of jade in Olmec ceremonial axes from El Manatí, Veracruz, Mexico

Portable Raman verification and quantification of jade in Olmec ceremonial axes from El Manatí, Veracruz, Mexico

The El Manatí archaeological site in Veracruz State, Mexico, is famous for its deposits of ceremonial stone axes and beads from the Olmec culture. Some of these have been considered to be in jadeite‐jade, but this rock type in these artefacts has never before been physico‐chemically verified. A port...

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Veröffentlicht in:Journal of Raman spectroscopy 2017-11, Vol.48 (11), p.1618-1632
Hauptverfasser: Gendron, François, Smith, David C., Masson, Pierre, Rodríguez Martínez, María del Cármen, Ortiz Ceballos, Ponciano
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Sprache:eng
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Archaeological sites
Archaeology
Archaeology and Prehistory
archaeometry
Artefacts
Axes (reference lines)
Beads
Calcium magnesium silicates
Diopside
Historic sites
Humanities and Social Sciences
jade
Minerals
Nondestructive testing
Olmec culture
Raman spectra
Raman spectroscopy
stone axe
Vibration
Wavelengths
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container_end_page 1632
container_issue 11
container_start_page 1618
container_title Journal of Raman spectroscopy
container_volume 48
creator Gendron, François
Smith, David C.
Masson, Pierre
Rodríguez Martínez, María del Cármen
Ortiz Ceballos, Ponciano
description The El Manatí archaeological site in Veracruz State, Mexico, is famous for its deposits of ceremonial stone axes and beads from the Olmec culture. Some of these have been considered to be in jadeite‐jade, but this rock type in these artefacts has never before been physico‐chemically verified. A portable Raman spectrometer was employed in situ inside the Centro‐INAH Veracruz reserve for this remote analytical operation of non‐destructive direct hand‐held analysis to identify some of the mineral species present. The key points of interest were as follows: which objects can correctly be called ‘jade’ because they contain the high‐pressure minerals jadeite or omphacite and, if so, with what mol. % Jd (Jd%) in the solid‐solution jadeite–diopside–hedenbergite. The Jd% value was then quantified from the wavenumber shift of the symmetric Si–O–Si Raman vibration band. Although some artefacts did not yield any usable Raman spectra, exploitable spectra were obtained from 41 stone axes or beads. Jadeite was found in 13 artefacts and omphacite in another 11. Jd% varied from 95 to 38% such that many of these jades are actually omphacite‐jade rather than jadeite‐jade. The complicated terminology of jades is thus re‐examined. A partial correlation is shown to exist between the Jd% value and the density of the artefacts. These results provide important, hitherto unknown, mineralogical data for archaeologists studying artefacts at different horizons at different sites of Mesoamerican cultures. These results also allow these artefacts to be now labelled correctly in their Museum reserve or exhibition display. Copyright © 2017 John Wiley & Sons, Ltd. A series of Olmec ceremonial stone axes from an archaeological site in Mexico have been analysed by hand‐held portable Raman spectroscopy in order to verify physico‐chemically which ones really are in jade. The recognised sodic aluminous clinopyroxenes were then quantified in terms of mol. % jadeite in the solid‐solution series Jd–Di–Hd using an available calibration of the wavenumber shifts of their T–O–T vibration band. Problems with jade terminology, with correlating density measurements and with provenancing rock types are discussed.
doi_str_mv 10.1002/jrs.5122
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Jd% varied from 95 to 38% such that many of these jades are actually omphacite‐jade rather than jadeite‐jade. The complicated terminology of jades is thus re‐examined. A partial correlation is shown to exist between the Jd% value and the density of the artefacts. These results provide important, hitherto unknown, mineralogical data for archaeologists studying artefacts at different horizons at different sites of Mesoamerican cultures. These results also allow these artefacts to be now labelled correctly in their Museum reserve or exhibition display. Copyright © 2017 John Wiley &amp; Sons, Ltd. A series of Olmec ceremonial stone axes from an archaeological site in Mexico have been analysed by hand‐held portable Raman spectroscopy in order to verify physico‐chemically which ones really are in jade. 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Some of these have been considered to be in jadeite‐jade, but this rock type in these artefacts has never before been physico‐chemically verified. A portable Raman spectrometer was employed in situ inside the Centro‐INAH Veracruz reserve for this remote analytical operation of non‐destructive direct hand‐held analysis to identify some of the mineral species present. The key points of interest were as follows: which objects can correctly be called ‘jade’ because they contain the high‐pressure minerals jadeite or omphacite and, if so, with what mol. % Jd (Jd%) in the solid‐solution jadeite–diopside–hedenbergite. The Jd% value was then quantified from the wavenumber shift of the symmetric Si–O–Si Raman vibration band. Although some artefacts did not yield any usable Raman spectra, exploitable spectra were obtained from 41 stone axes or beads. Jadeite was found in 13 artefacts and omphacite in another 11. Jd% varied from 95 to 38% such that many of these jades are actually omphacite‐jade rather than jadeite‐jade. The complicated terminology of jades is thus re‐examined. A partial correlation is shown to exist between the Jd% value and the density of the artefacts. These results provide important, hitherto unknown, mineralogical data for archaeologists studying artefacts at different horizons at different sites of Mesoamerican cultures. These results also allow these artefacts to be now labelled correctly in their Museum reserve or exhibition display. Copyright © 2017 John Wiley &amp; Sons, Ltd. A series of Olmec ceremonial stone axes from an archaeological site in Mexico have been analysed by hand‐held portable Raman spectroscopy in order to verify physico‐chemically which ones really are in jade. The recognised sodic aluminous clinopyroxenes were then quantified in terms of mol. % jadeite in the solid‐solution series Jd–Di–Hd using an available calibration of the wavenumber shifts of their T–O–T vibration band. Problems with jade terminology, with correlating density measurements and with provenancing rock types are discussed.</abstract><cop>Bognor Regis</cop><pub>Wiley Subscription Services, Inc</pub><doi>10.1002/jrs.5122</doi><tpages>15</tpages><orcidid>https://orcid.org/0000-0003-2920-1992</orcidid></addata></record>
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subjects Archaeological sites
Archaeology
Archaeology and Prehistory
archaeometry
Artefacts
Axes (reference lines)
Beads
Calcium magnesium silicates
Diopside
Historic sites
Humanities and Social Sciences
jade
Minerals
Nondestructive testing
Olmec culture
Raman spectra
Raman spectroscopy
stone axe
Vibration
Wavelengths
title Portable Raman verification and quantification of jade in Olmec ceremonial axes from El Manatí, Veracruz, Mexico
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