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- Englisch (4)
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- Archaeometry (1)
- Biodeterioration (1)
- Dead Sea Scrolls (1)
- Fungi (1)
- Manuscript studies (1)
- Non-destructive testing (1)
- Oxalates (1)
- Parchment (1)
- Raman (1)
- SEM-EDS (1)
Organisationseinheit der BAM
The miraculously preserved 2000-year-old Dead Sea Scrolls, ancient texts of invaluable historical significance, were discovered in the mid-20th century in the caves of the Judean desert. The texts were mainly written on parchment and exhibit vast diversity in their states of preservation. One particular scroll, the 8-m-long Temple Scroll is especially notable because of its exceptional thinness and bright ivory color. The parchment has a layered structure, consisting of a collagenous base material and an atypical inorganic overlayer. We analyzed the chemistry of the inorganic layer using x-ray and Raman spectroscopies and discovered a variety of evaporitic sulfate salts. This points toward a unique ancient production technology in which the parchment was modified through the addition of the inorganic layer as a writing surface. Furthermore, understanding the properties of these minerals is particularly critical for the development of suitable conservation methods for the preservation of these invaluable historical documents.
Polycapillary halflenses are widely used to focus X-ray radiation onto a small spot. Additionally they can reduce the field of view of a semiconductor detector when placed in front of one. In 3D micro X-ray fluorescence spectroscopy (3D Micro-XRF) with synchrotron radiation, two polycapillary halflenses are used in a confocal geometry. Up until now, characterization measurements in the focal plane have only been performed in the case of the lens focusing parallel radiation. Assumptions have been made, that in the other case, when isotropic radiation from a spot source is transported to a detector, the acceptance distribution in the focal plane is also Gaussian. We performed measurements with an electron beam as well as a proton beam which confirm this assumption. In addition, a comparison between measurements in collecting and focusing mode show differences in spot size and transmission. These differences exemplify the fact that there is not one global spot size or transmission function of a polycapillary halflens. Illumination and divergence effects can alter both characteristic lens parameters.
In this work, we applied scanning electron
microscopy (SEM), microanalysis and Raman spectroscopy
to study the fungi inhabiting a richly illuminated parchment
document and the damage induced by their activity. To that
aim, we collected samples of fungal mycelium from the
deteriorated areas on a removable adhesive tape specifically
intended for lifting fungi without damaging the support.
SEM analysis of the adhesive tape samples showed the cooccurrence
of several species of fungi. One strain closely
resembling Acremonium species was observed only in the
tape micrographs but no agar cultures were obtained. Its
fungal structures showed the production of abundant
oxalates with an outstanding leaching of the calciumbased
materials of parchment (typically manufactured with
gypsum and lime). Needle-like crystals of calcium oxalate
produced by the fungus forming a uniform and quite
regular grid around conidial slimy heads were documented.
As a result, the areas affected by moulds were weakened,
stained and characterised by a powdery patina rich in
calcium. Confocal µ-Raman confirmed the presence of
oxalates while EDS showed the presence of calcium in
crystals. We conclude that the defacement of the parchment
was due to both collagenolytic activity, and to the
biotransformation of calcium-based minerals by fungi.