Analytische Chemie
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The International Qumran project conducted at the BAM Federal Institute for Materials Research and Testing in 2007–10 aimed at establishing an optimal methodology for an accurate characterization of the Dead Sea Scrolls to address such questions as archaeological provenance, origin, and attribution of fragments to a specific sheet (Rabin 2013). Using equipment of various degrees of complexity we have shown that part of the historic information stored in the material can be revealed by proper characterization of the material. The on-site investigation of the Dead Sea Scrolls fragments from The Schøyen Collection in October 2012 offered the first chance to test this methodology in a field study. For the first time, we used mobile and non-invasive technology exclusively, since we could not transport all of our laboratory equipment to Norway for this project. Moreover, besides the technical limitations dictated by the available equipment, we had to cope with limited time: it was impossible to perform the number of scans required for optimal characterization of over 30 fragments within the fourteen days available. Nevertheless this study presents an important step in the material analysis of the Dead Sea Scrolls, since the devices we used are easily transportable, well known, and easily accessible throughout the world.
We have obtained a minute amount of dry ink scratched from the bronze inkwell MS 1655/2. The powder was stored between two glass slides to minimize contamination. For micro analysis by FTIR a sample of the ink powder was transferred into a diamond cell while for confocal Raman spectroscopy a micro sample was placed onto sticky tape. The same portion of the sample was also investigated by scanning electron microscopy, where the elements distribution was determined by EDX.
The aim of our work was to check whether the assumption that the jar was discovered in Qumran can be substantiated. In order to establish the archaeological provenance of the jar we conducted a series of analytical tests on samples of material collected from the jar in April and June 2009. The samples were either found loose within the jar, these being probably constituted by remnants of its original contents, or were clay detached from the inner and outer surface of the jar. In addition, a portion of sand deposit coating the inside of the jar handles was analysed.
The first manuscripts from the Qumran caves were found in 1947. Within the following 10 years, clandestine and legal excavations revealed some 900 highly fragmented manuscripts from the late Second Temple period. This collection is generally known as Scrolls of the Judea Desert or Dead Sea Scrolls (DSS).
For many years after their discovery, text analysis and fragments attribution were the main concern of the scholars dealing with the scrolls. The uncertain archaeological provenance of the larger part of the collection added an additional difficulty to the formidable task of sorting some 19000 fragments. After 60 years of scholar research the questions of origin, archaeological provenance and correct attribution of the fragments are still hotly debated.
In many cases material characterization of the scroll writing media deliver answers to the questions stated above. Furthermore, issues concerning corrosion pathways, ancient technologies and contemporary conservation activities demand in depth material studies. To obtain a comprehensive picture we use optical and electron microscopy, various X-ray based techniques as well as vibrational spectroscopy. We validated our approach with SY- based studies using the advantages of the synchrotron radiation source with respect to the bench-top devices.
Our laboratory studies showed that often production and storage locality could be distinguished thanks to the specific residues (“fingerprint”) they left on the material. Moreover, we have discovered that different parchment production processes coexisted in the antiquity, and the resulting writing materials can readily be distinguished.
Within our recent studies we tentatively reconstructed the history of the Genesis Apocryphon. Written with a corrosive ink on a tanned parchment, it was found rolled together with an additional layer of non-inscribed non-tanned parchment. Chemical composition of the ink is in agreement with a 1st century AD ink recipe recorded in Materia Medica by a Greek physician, Pedanius Dioscorides. Study of the scroll deterioration as a function of time and exposition to light during the post-discovery period allows us to speculate that the scroll was rather “archived” than hidden in Cave 1. These results confirm the theory of Eliezer Sukenik who believed Cave 1 to be a “geniza”. A similar study of the Temple Scroll, discovered in the cave 11 indicates that the scroll was rather hidden than “archived”.