The potential of X-ray computed tomography for xylological and dendrochronological analyses of Egyptian mummy labels

X-ray computed tomography (XRCT) imaging allows non-destructive visualization of the structure of various materials. Applied to wooden objects, it allows determination of their morphologies or manufacturing techniques, but also measurement of growth ring widths. We have applied XRCT to a selection o...

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Veröffentlicht in:	PloS one 2024-06, Vol.19 (6), p.e0303695
Hauptverfasser:	Blondel, François, Bélot, Gisela, Corona, Christophe, Huebner, Sabine R, Stoffel, Markus
Format:	Artikel
Sprache:	eng
Schlagworte:	Archaeology Computed tomography CT imaging Dendrochronology Egypt Egyptology Endemic species Environmental conditions Environmental Sciences Growth rings Humans Hypotheses Labels Mummies Mummies - diagnostic imaging Plant species Silvicultural practices Software Tomography Tomography, X-Ray Computed - methods Tree rings Trees Trees - anatomy & histology Wood - anatomy & histology Woodworking
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description	X-ray computed tomography (XRCT) imaging allows non-destructive visualization of the structure of various materials. Applied to wooden objects, it allows determination of their morphologies or manufacturing techniques, but also measurement of growth ring widths. We have applied XRCT to a selection of 38 mummy labels. This funerary furniture, made up of endemic or imported tree species, has survived thanks to environmental conditions in very large quantities in regions in Middle and Upper Egypt and is featured now in museum collections across the globe. Mummy labels thus represent a unique and abundant data source to build floating or absolutely dated dendrochronological chronologies for this period. Here we discuss the possible contributions and limitations of XRCT for the analysis of these artifacts and show that the approach allows identification of discriminating markers for the identification of certain species on the transverse plane, but that the insufficient resolution of the tangential and radial planes normally prevents formal identification of species. By contrast, XRCT undeniably enhances the visibility of toolmarks (in terms of numbers and depth), and thereby allows highlighting marks that remain invisible to the naked eye; XRCT also provides key insights into cutting methods and the calibers used and yields new information on silvicultural practices and the knowhow of Egyptian craftsmen. Finally, the measurement of ring widths on XRCT imagery is also more accurate than what can be achieved by traditional dendrochronological measurements, especially in the case of cuts realized on a slab. The approach also confirms the limited potential of local broadleaved species for dendrochronological approaches due to unreadable or poorly visible tree rings and mostly short tree-ring sequences.
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By contrast, XRCT undeniably enhances the visibility of toolmarks (in terms of numbers and depth), and thereby allows highlighting marks that remain invisible to the naked eye; XRCT also provides key insights into cutting methods and the calibers used and yields new information on silvicultural practices and the knowhow of Egyptian craftsmen. Finally, the measurement of ring widths on XRCT imagery is also more accurate than what can be achieved by traditional dendrochronological measurements, especially in the case of cuts realized on a slab. 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Applied to wooden objects, it allows determination of their morphologies or manufacturing techniques, but also measurement of growth ring widths. We have applied XRCT to a selection of 38 mummy labels. This funerary furniture, made up of endemic or imported tree species, has survived thanks to environmental conditions in very large quantities in regions in Middle and Upper Egypt and is featured now in museum collections across the globe. Mummy labels thus represent a unique and abundant data source to build floating or absolutely dated dendrochronological chronologies for this period. Here we discuss the possible contributions and limitations of XRCT for the analysis of these artifacts and show that the approach allows identification of discriminating markers for the identification of certain species on the transverse plane, but that the insufficient resolution of the tangential and radial planes normally prevents formal identification of species. 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subjects	Archaeology Computed tomography CT imaging Dendrochronology Egypt Egyptology Endemic species Environmental conditions Environmental Sciences Growth rings Humans Hypotheses Labels Mummies Mummies - diagnostic imaging Plant species Silvicultural practices Software Tomography Tomography, X-Ray Computed - methods Tree rings Trees Trees - anatomy & histology Wood - anatomy & histology Woodworking
title	The potential of X-ray computed tomography for xylological and dendrochronological analyses of Egyptian mummy labels
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