Your search keyword '"Schibille, N"' showing total 23 results

1. Composition, microstructure and corrosion mechanisms of Catalan Modernist enamelled glass

Author

Beltran, M., Schibille, N., Gratuze, B., Vallcorba, O., Bonet, J., and Pradell, T.

Published

2021

2. Comparison of pXRF and LA-ICP-MS analysis of lead-rich glass mosaic tesserae

Author

Adlington, L.W., Gratuze, B., and Schibille, N.

Published

2020

3. Changes in glass consumption in Pergamon (Turkey) from Hellenistic to late Byzantine and Islamic times

Author

Rehren, Th., Connolly, P., Schibille, N., and Schwarzer, H.

Published

2015

4. Loose glass tesserae and lost decorations: chronology and production of mosaics from Gerasa’s Northwest Quarter

Author

Boschetti, C., Lichtenberger, A., Raja, R., Wootton, W., Schibille, N., IRAMAT - Centre Ernest Babelon (IRAMAT-CEB), Institut de Recherches sur les Archéomatériaux (IRAMAT), Université d'Orléans (UO)-Centre National de la Recherche Scientifique (CNRS)-Université Bordeaux Montaigne-Université de Technologie de Belfort-Montbeliard (UTBM)-Université d'Orléans (UO)-Centre National de la Recherche Scientifique (CNRS)-Université Bordeaux Montaigne-Université de Technologie de Belfort-Montbeliard (UTBM), and Université d'Orléans (UO)

Subjects

010506 paleontology, Archeology, History, Glass recycling, HIMT, [SHS.ARCHEO]Humanities and Social Sciences/Archaeology and Prehistory, Laser ablation inductively coupled plasma mass spectrometry, mosaics, 01 natural sciences, [SHS]Humanities and Social Sciences, 0601 history and archaeology, Levantine I, glass recycling, ComputingMilieux_MISCELLANEOUS, 0105 earth and related environmental sciences, Roman glass tesserae and Byzantine glass tesserae, Jordan, 060102 archaeology, Original Articles, 06 humanities and the arts, [CHIM.MATE]Chemical Sciences/Material chemistry, Archaeology, Foy 2.1, Original Article, Geology, Chronology

Abstract

Laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) analyses of loose glass tesserae from the Northwest Quarter of Gerasa/Jerash has enhanced our understanding of the dynamics regulating the production and circulation of glass tesserae in second- to eighth-centuries ce Jordan and the diachronic development of mosaics at the site. The identification of Levantine and Egyptian compositions (Roman-Mn, Levantine I, HIMT, Foy 2.1) proves the continuous production of mosaics from the second to the seventh centuries. The Levantine I tesserae were made by the recycling and colouring of glass cullet. The gilded tesserae, in contrast, were all of an Egyptian base glass, likely illustrating the import of finished tesserae.

Published

2021

5. The Supply of Glass at Portus Ilicitanus (Alicante, Spain): A Meta‐Analysis of HIMT Glasses

Author

Juan Ares, J., Schibille, N., Vidal, J. Molina, Sánchez de Prado, M. D., IRAMAT - Centre Ernest Babelon (IRAMAT-CEB), Institut de Recherches sur les Archéomatériaux (IRAMAT), Université d'Orléans (UO)-Centre National de la Recherche Scientifique (CNRS)-Université Bordeaux Montaigne-Université de Technologie de Belfort-Montbeliard (UTBM)-Université d'Orléans (UO)-Centre National de la Recherche Scientifique (CNRS)-Université Bordeaux Montaigne-Université de Technologie de Belfort-Montbeliard (UTBM), Universidad de Alicante, Universidad de Alicante. Departamento de Prehistoria, Arqueología, Historia Antigua, Filología Griega y Filología Latina, and Culturas Antiguas y Cultura Material

Subjects

[SHS.ARCHEO]Humanities and Social Sciences/Archaeology and Prehistory, HIMTa and b glass, Original Articles, Jalame, Mediterranean, HIMT a and b glass, late Roman Spain, meta-analysis, Meta-analysis, meta‐analysis, LA–ICP–MS, Trade, Original Article, Historia Antigua, LA-ICP-MS, trade, Late Roman Spain

Abstract

Portus Ilicitanus (Picola, Alicante) was the main sea harbour of the Roman Colonia Iulia Ilici Augusta and as such played a crucial role in the supply of fundamental commodities to the Iberian Peninsula. Excavations yielded large quantities of glass in fourth‐ and early fifth‐century contexts. Elemental analysis of 60 samples by laser ablation – inductively coupled plasma – mass spectrometry (LA–ICP–MS) confirmed that the glasses were imported from the Eastern Mediterranean. A majority of the glasses correspond to the HIMTa primary production group, which originates from Egypt. The statistical evaluation of published data of 589 HIMT glasses further revealed differential distribution patterns of the HIMTa and HIMTb subtypes between the Eastern and Western Mediterranean, suggesting chronological trends that are linked to wider geopolitical changes. This demonstrates the need for systematic large‐scale approaches to identify supply patterns and possible factors underlying geographical differences and/or chronological developments. This project has received funding from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation programme (grant agreement No. 647315 to NS).

Published

2019

6. Late roman glass from the ‘great temple’ at Petra and Khirbet Et-Tannur, Jordan-Technology and Provenance

Author

Schibille, N, Degryse, Patrick, O’Hea, M, Izmir, A, Vanhaecke, F, and McKenzie, J

Subjects

Petra, Antimony, Manganese, Nabataean, Himt, Recycling, Levantine I, Late Roman, Epma, Colourless glass, La–Icp–Ms, Khirbet Et-Tannannur

Abstract

Forty-seven window and vessel glasses from the ‘Great Temple’ at Petra (Jordan), dating to the first/second and fourth centuries CE, were analysed by EPMA for major and minor elements. A subset of 29 samples from Petra and 15 samples from Khirbet et-Tannur were additionally analysed for trace elements, using LA–ICP–MS. Six compositional groups were identified on the basis of the presence of decolouring agents. The majority of the glasses derive ultimately from the Levantine coast, but most of the groups show evidence for highly selective recycling. The observed differences between the two sites could be related to different chronological ranges, functions, relative wealth and trade connections. ispartof: Archaeometry vol:54 pages:997-1022 status: published

Published

2012

7. Islamic Glass in the Making

Author

Schibille, Nadine

Subjects

Islamic glassmaking, Egyptian and Levantine glass, Mesopotamian and Central Asian glass, Iberian and Sicilian glass, Glass mosaic tesserae, bic Book Industry Communication::H Humanities::HD Archaeology, bic Book Industry Communication::W Lifestyle, sport & leisure::WF Handicrafts, decorative arts & crafts::WFN Pottery, ceramics & glass crafts

Abstract

The ancient glass industry changed dramatically towards the end of the first millennium. The Roman glassmaking tradition of mineral soda glass was increasingly supplanted by the use of plant ash as the main fluxing agent at the turn of the ninth century CE. Defining primary production groups of plant ash glass has been a challenge due to the high variability of raw materials and the smaller scale of production. Islamic Glass in the Making advocates a large-scale archaeometric approach to the history of Islamic glassmaking to trace the developments in the production, trade and consumption of vitreous materials between the eighth and twelfth centuries and to separate the norm from the exception. It proposes compositional discriminants to distinguish regional production groups, and provides insights into the organisation of the glass industry and commerce during the early Islamic period. The interdisciplinary approach leads to a holistic understanding of the development of Islamic glass; assemblages from the early Islamic period in Mesopotamia, Central Asia, Egypt, Greater Syria and Iberia are evaluated, and placed in the larger geopolitical context. In doing so, this book fills a gap in the present literature and advances a large-scale approach to the history of Islamic glass.

Published

2022

8. New Data on the Soda Flux Used in the Production of Iznik Glazes and Byzantine Glasses.

Author

Tite, M. S., Shortland, A. J., Schibille, N., and Degryse, P.

Subjects

DATA analysis, IZNIK pottery, BYZANTINE glassware, CERAMICS, HOT springs

Abstract

Previous research has shown that Iznik glazes are characterized by low potash and magnesia contents. It was therefore suggested that the flux used was either a purified plant ash or some unidentified mineral source of soda. More recently, as a result of the detection of small, but significant, amounts of boron and lithium in Byzantine glasses from western Turkey, which also exhibit low potash and magnesia contents, it has been suggested that the source of the flux used was a soda-rich evaporite associated in some way with the extensive borax deposits in the region. LA-ICP-MS has been used to establish that Iznik glazes also contain similarly small amounts of boron and lithium. The Na/K, Na/Mg, Na/Ca and Na/B ratios for these Iznik glazes are shown to be comparable to the equivalent ratios calculated from published data for waters from a range of Na-HCO3 type hot springs in western Turkey, with the closest match being to the hot springs around Afyon- Gazligöl, which is consistent with documentary evidence. It is therefore proposed that the soda-rich salts produced by evaporating water from these springs to dryness would have provided the flux required for the production of Iznik glazes and high-boron Byzantine glasses. [ABSTRACT FROM AUTHOR]

Published

2016

9. LATE ROMAN GLASS FROM THE 'GREAT TEMPLE' AT PETRA AND KHIRBET ET-TANNUR, JORDAN-TECHNOLOGY AND PROVENANCE.

Author

SCHIBILLE, N., DEGRYSE, P., O'HEA, M., IZMER, A., VANHAECKE, F., and McKENZIE, J.

Subjects

*WASTE recycling, *WEALTH, *TRACE elements

Abstract

Forty-seven window and vessel glasses from the 'Great Temple' at Petra (Jordan), dating to the first/second and fourth centuries ce, were analysed by EPMA for major and minor elements. A subset of 29 samples from Petra and 15 samples from Khirbet et-Tannur were additionally analysed for trace elements, using LA-ICP-MS. Six compositional groups were identified on the basis of the presence of decolouring agents. The majority of the glasses derive ultimately from the Levantine coast, but most of the groups show evidence for highly selective recycling. The observed differences between the two sites could be related to different chronological ranges, functions, relative wealth and trade connections. [ABSTRACT FROM AUTHOR]

Published

2012

10. CHARACTERIZATION AND PROVENANCE OF LATE ANTIQUE WINDOW GLASS FROM THE PETRA CHURCH IN JORDAN.

Author

SCHIBILLE, N., MARII, F., and REHREN, Th.

Subjects

*ANTIQUITIES, *SEALED double glazing, *SPECTROPHOTOMETRY, *SILICON compounds, *SILICON

Abstract

Fifth- to seventh-century window glass fragments from the Petra Church in Jordan were analysed by EPMA and spectrophotometry to characterize their optical properties and chemical composition. The objective of this study was to determine the provenance of the raw glass and the secondary production procedures of the window-panes. Judging from the material evidence, both the crown window-panes and possibly the rectangular samples were produced through glass-blowing techniques. The chemical data show that the assemblage forms a homogeneous group of soda–lime–silica glass of the Levantine I type. The green glass, however, has higher silica and lower soda contents than the aqua-blue fragments. The composition of one sample suggested the recycling of Roman glass. Our results confirm the trade of glass between the Levantine coast and Petra during Late Antiquity. No colouring agents other than iron were detected. Spectrophotometry confirmed the presence of iron and showed that the window fragments absorbed light relatively equally across the visible part of the spectrum. The windows thus seem to have provided an almost colourless illumination for the sacred interior. [ABSTRACT FROM AUTHOR]

Published

2008

11. Butrint 6: Excavations on the Vrina Plain Volume 2 : The Finds

Author

Greenslade, Simon, Edited by, Beatrice, Jared S., Fenton, Todd W., Isaac, Carolyn V., Law, Matthew, Livarda, Alexandra, Madgwick, Richard, Mitchell, John, Moorhead, Sam, Papadopoulou, Pagona, Pearce, Pippa, Schibille, Nadine, Soler, Angela, Stark, Karen, Veropoulidou, Rena, Vroom, Joanita, Greenslade, Simon, Beatrice, Jared S., Fenton, Todd W., Isaac, Carolyn V., Law, Matthew, Livarda, Alexandra, Madgwick, Richard, Mitchell, John, Moorhead, Sam, Papadopoulou, Pagona, Pearce, Pippa, Schibille, Nadine, Soler, Angela, Stark, Karen, Veropoulidou, Rena, and Vroom, Joanita

Published

2019

12. The Roman Amphitheatre of Chester, Volume 1 : the Prehistoric and Roman archaeology

Author

Wilmott, Tony, Garner, Dan, Baum, Julian, Bishop, Barry, Ramsey, Christopher Bronk, Campbell, Gill, Cook, Gordon, Dunn, Gillian, Gardner, Carlotta, Harland, Jen, Hazell, Zoë, Heke, Alison, Henig, Martin, Hill, Peter, Marshall, Peter, Morris, Elaine L, Mould, Quita, Paynter, Sarah, Pelling, Ruth, Popkin, Peter, Reimer, Paula, Robinson, David E, Schibille, Nadine, Shotter, David, Tomlin, Roger, Ward, Margaret, Watson, Jacqui, Vallender, John, Quinn, Cheryl, Dobie, Judith, Heke, David, Winter, Eleanor, Midgley, Julia, Wilmott, Tony, Garner, Dan, Baum, Julian, Bishop, Barry, Ramsey, Christopher Bronk, Campbell, Gill, Cook, Gordon, Dunn, Gillian, Gardner, Carlotta, Harland, Jen, Hazell, Zoë, Heke, Alison, Henig, Martin, Hill, Peter, Marshall, Peter, Morris, Elaine L, Mould, Quita, Paynter, Sarah, Pelling, Ruth, Popkin, Peter, Reimer, Paula, Robinson, David E, Schibille, Nadine, Shotter, David, Tomlin, Roger, Ward, Margaret, Watson, Jacqui, Vallender, John, Quinn, Cheryl, Dobie, Judith, Heke, David, Winter, Eleanor, and Midgley, Julia

Published

2017

13. Rare Alkali Elements as Markers of Local Glass Working in Medieval Tolmo de Minateda (Spain).

Author

Schibille N, Amorós Ruiz V, De Juan Ares J, and Gutiérrez Lloret S

Subjects

Mass Spectrometry, Plants chemistry, Spain, Alkalies, Glass analysis, Glass chemistry, Glass history

Abstract

Analytical data of Roman and early Islamic glass established several primary glass production groups linked to glassmaking centres in the Levant and in Egypt. In contrast, the activities of secondary glass workshops are largely invisible in the compositional fingerprint of first millennium glass. Laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) of 261 glass finds from the Visigothic settlement of Tolmo de Minateda (Spain) revealed a site-specific contamination pattern due to secondary glass processing and recycling, namely the enrichment of the glass batch by a unique combination of rare alkali elements (Li, K, Rb, Cs). With a median of 21 ppm, Li is particularly distinctive. Elevated lithium contents (Li>30 ppm) are also one of the characteristic features of Iberian plant ash glass from the Islamic period. The earliest known examples of this type of glass were found among the ninth-century remains from Tolmo., (© 2022 The Authors. ChemPlusChem published by Wiley-VCH GmbH.)

Published

2022

14. Composition and origins of decorated glass from Umayyad Cordoba (Spain).

Author

De Juan Ares J, Cáceres Gutiérrez Y, Moreno Almenara M, and Schibille N

Abstract

Recent archaeological excavations carried out in the western suburbs of Cordoba (Spain) brought to light numerous fragments of archaeological glass from the caliphal period (929-1031 CE). The typological and compositional analysis by laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) of 66 fragments enabled the identification of different types of base glass and glass working techniques, identifying local productions, imports and decorative imitations of eastern models. The studied fragments include Mesopotamian, Levantine, Egyptian and possibly Sicilian soda-rich plant ash glass categories, and various glass-decorating techniques such as mould-blowing, pressing, cutting, staining or gilding. The systematic comparison of the trace element patterns of several relief-cut objects identified both imported ware and a locally manufactured sample, whereas all mould-blown pieces were made from locally sourced raw materials. Iberian glassworkers seem to have preferred mould-blowing, probably because of the distinct working properties of locally available high lead glass. The results thus confirm the continuous long-distance exchange of vitreous material, as well as the existence of multiple glassmaking centres in the Iberian Peninsula, illustrating a link between secondary glass working techniques and chemical composition. Furthermore, the identification of several fragments belonging to the same object based on chemical composition allowed us to reconstruct entire vessels and thereby expand the repertoire of known typologies circulating in Umayyad Spain., Supplementary Information: The online version contains supplementary material available at 10.1186/s40494-021-00505-4., Competing Interests: Competing interestsThe authors declare that they have no conflict of interest., (© The Author(s) 2021.)

Published

2021

15. Production and provenance of architectural glass from the Umayyad period.

Author

Adlington LW, Ritter M, and Schibille N

Subjects

Color, Coloring Agents analysis, Copper analysis, Egypt, Ferric Compounds analysis, History, 18th Century, Lead analysis, Mass Spectrometry methods, Middle East, Minerals analysis, Tin analysis, Trace Elements analysis, Architecture history, Glass chemistry, Glass history

Abstract

A large assemblage (n = 307) of architectural glasses (tesserae and windows) from the early 8th-century Umayyad residential site at Khirbat al-Minya was analysed by laser ablation inductively coupled plasma mass spectrometry. Trace element patterns are essential to establish the provenance of the base glass, while the comparative evaluation of the colouring and opacifying additives allow us to advance a production model for the manufacture of glass mosaic tesserae during the early Islamic period. The primary glass types are Levantine I and Egypt 1a, as well as a few older, reused tesserae, and Mesopotamian plant ash glass used for amber-coloured window fragments. Chemical data revealed fundamental differences in the colouring and opacification technologies between the Egyptian and Levantine tesserae. Co-variations of lead and bismuth, and copper, tin and zinc in the Egypt 1a tesserae provide first evidence for the production of different mosaic colours in a single workshop, specialising in the manufacture of tesserae of different colours. No such trend is apparent in the Levantine samples. Red, cobalt blue and gold leaf tesserae were found to be exclusively made from a Levantine base glass, indicating that the generation of some colours may have been a specialised process. The same may apply to the amber-coloured window glass fragments of Mesopotamian origin that exhibit very unusual characteristics, combining elevated copper (2% CuO) with an excess in iron oxide (5% Fe2O3). These findings have significant implications for the production model of strongly coloured glass and the exploitation of resources during the early Islamic period., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

16. Ex novo development of lead glassmaking in early Umayyad Spain.

Author

Schibille N, De Juan Ares J, Casal García MT, and Guerrot C

Abstract

This study investigates glass finds from the Iberian Peninsula as a proxy for identifying the mechanisms underlying technological transformations and innovation in the wake of the Arab conquest in the seventh and eighth centuries CE. High-resolution laser ablation inductively coupled plasma mass spectrometry data combined with lead isotope analyses of a precisely dated (mid-eighth century to 818 CE) glass assemblage from the Rabad of Šaqunda in Cordoba, capital of Umayyad Spain, enabled us to trace the origins of an Iberian glassmaking industry and to unambiguously link it to the exploitation of local raw materials. The analytical data reveal increased recycling, some isolated imports of Islamic plant ash glasses from Mesopotamia, and, most notably, the development of a new type of glassmaking technology that resorted to the use of lead slag from silver and lead mining and processing in the region around Cordoba. The production of this type of lead glass from Šaqunda was short-lived and was subsequently refined by introducing additional fluxing agents. The technological innovation of Islamic glassmaking in Spain evidently drew inspiration from adjacent high-temperature technologies. The revival of glass and the development of a local glassmaking tradition was indirectly related to the wider processes of Islamization, such as the introduction of glazed ceramics that are compositionally related to the lead glasses from Šaqunda., Competing Interests: The authors declare no competing interest., (Copyright © 2020 the Author(s). Published by PNAS.)

Published

2020

17. The Supply of Glass at Portus Ilicitanus (Alicante, Spain): A Meta-Analysis of HIMT Glasses.

Author

de Juan Ares J, Schibille N, Vidal JM, and Sánchez de Prado MD

Abstract

Portus Ilicitanus (Picola, Alicante) was the main sea harbour of the Roman Colonia Iulia Ilici Augusta and as such played a crucial role in the supply of fundamental commodities to the Iberian Peninsula. Excavations yielded large quantities of glass in fourth- and early fifth-century contexts. Elemental analysis of 60 samples by laser ablation - inductively coupled plasma - mass spectrometry (LA-ICP-MS) confirmed that the glasses were imported from the Eastern Mediterranean. A majority of the glasses correspond to the HIMTa primary production group, which originates from Egypt. The statistical evaluation of published data of 589 HIMT glasses further revealed differential distribution patterns of the HIMTa and HIMTb subtypes between the Eastern and Western Mediterranean, suggesting chronological trends that are linked to wider geopolitical changes. This demonstrates the need for systematic large-scale approaches to identify supply patterns and possible factors underlying geographical differences and/or chronological developments.

Published

2019

18. The trade of glass beads in early medieval Illyricum: towards an Islamic monopoly.

Author

Neri E, Gratuze B, and Schibille N

Abstract

The trade of glass beads has long been assumed to have been under Islamic dominance during the early centuries following the Arab conquest of the Middle East, judged by the prevalence of Islamic beads in the archaeological contexts from Viking Scandinavia to medieval Morocco. This paper explores the impact of the Byzantine-Slavic transition on the use and by extension trade of glass beads in the Balkans from the seventh to the ninth century CE. A series of 48 glass beads and 4 vessel fragments from two excavated sites in modern day Albania have been analysed morphologically, technologically and chemically by LA-ICP-MS. The seventh-century beads from Lezha have typological parallels among central European assemblages and are made from recycled natron-type glass. The presence of a high lead-iron-natron variant is of particular interest as it potentially reflects a regional production. The ninth-century beads from Komani are made from soda-rich plant ash glass from the eastern Mediterranean and Mesopotamia and correspond to an Islamic typology. The chronological and geographical differences are reflected in the distinctive cobalt sources used for the two groups. While the beads from Lezha are coloured with a cobalt not correlated with any particular element, the cobalt source of the Komani samples is associated with zinc, typical of Islamic glass making. It thus appears that the supply of beads during the seventh century when the Balkans were under Slavic occupation relied on regional production and recycled material, and that a long-distance trade with the eastern Mediterranean was revived following the Byzantine re-conquest of the south-eastern Adriatic in the ninth century. Intriguingly, the Albanian finds confirm the Islamic control of the production and trade of glass beads during this period and highlight the mediatory role of the Byzantine Empire., (© The Author(s) 2018.)

Published

2019

19. The glass walls of Samarra (Iraq): Ninth-century Abbasid glass production and imports.

Author

Schibille N, Meek A, Wypyski MT, Kröger J, Rosser-Owen M, and Wade Haddon R

Subjects

Construction Materials analysis, Construction Materials history, Economics history, Glass analysis, History, Medieval, Iraq, Mass Spectrometry, Plants, Glass history

Abstract

Capital of the Abbasid Caliphate between 836 and 892 CE, the palace-city of Samarra offers a precise window into early Islamic art and architecture. Excavations conducted more than 100 years ago are seen as the beginnings of scientific Islamic archaeology, and have yielded an exceptional array of finds including a wealth of glass artefacts. The chemical composition of glass reflects the nature of the raw materials and their geological provenance and can therefore reveal past technologies and economic and cultural interactions. Through high-resolution analysis of a comprehensive glass assemblage from Samarra we have new evidence that points to the existence of an advanced Abbasid glass industry, as well as the import of specific glass objects for the thriving new capital city. Quantitative analytical data of 58 elements by laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) show a striking correlation between object types and glass compositions. The compositional profiles of two related plant ash groups of architectural glass point to a local production, destined for the decoration of the famed glass walls of Abbasid palaces. The selective use of objects, materials and colours to create reflective and luminous glass walls are indicative of the great cultural and economic value of glass during the Abbasid period. Our findings thus confirm the veracity of written sources that stipulate the production of glass in the vicinity of Samarra, as well as the import of selected artefacts such as Byzantine mosaic tesserae., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

20. Glass import and production in Hispania during the early medieval period: The glass from Ciudad de Vascos (Toledo).

Author

de Juan Ares J and Schibille N

Subjects

Commerce history, Geography, Glass chemistry, History, Medieval, Mass Spectrometry methods, Middle East, Spain, Glass analysis, Glass history, Industry history, Silicon Dioxide analysis

Abstract

One hundred and forty-one glass fragments from medieval Ciudad de Vascos (Toledo, Spain) were analysed by laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS). The glasses fall into three types according to the fluxing agents used: mineral natron, soda-rich plant ash, and a combination of soda ash and lead. The natron glasses can be assigned to various established primary production groups of eastern Mediterranean provenance. Different types of plant ash glasses indicate differences in the silica source as well as the plant ash component, reflecting changing supply mechanisms. While the earlier plant ash groups can be related to Islamic glasses from the Near East, both in terms of typology and composition, the chemical signature of the later samples appear to be specific to glass from the Iberian Peninsula. This has important implications for our understanding of the emerging glass industry in Spain and the distribution patterns of glass groups and raw materials. The plant ash that was used for the Vascos glasses is rich in soda with low levels of potash, similar to ash produced in the eastern Mediterranean. It could therefore be possible that Levantine plant ash was imported and used in Islamic period glass workshops in Spain. Unlike central and northern Europe where an independent glass industry based on potassium-rich wood ash developed during the Carolingian period, the prevalence of soda ash and soda ash lead glass on the Iberian Peninsula indicates its commercial and technological interconnection with the Islamic east. Our study thus traces several stages leading to the development of a specifically Spanish primary glassmaking industry.

Published

2017

21. Comprehensive Chemical Characterisation of Byzantine Glass Weights.

Author

Schibille N, Meek A, Tobias B, Entwistle C, Avisseau-Broustet M, Da Mota H, and Gratuze B

Subjects

Calcium chemistry, Cobalt chemistry, Egypt, Ferric Compounds, France, History, Medieval, Mass Spectrometry, Multivariate Analysis, Nickel chemistry, Principal Component Analysis, Strontium chemistry, United Kingdom, Glass history

Abstract

The understanding of the glass trade in the first millennium CE relies on the characterisation of well-dated compositional groups and the identification of their primary production sites. 275 Byzantine glass weights from the British Museum and the Bibliothèque nationale de France dating to the sixth and seventh century were analysed by LA-ICP-MS. Multivariate statistical and graphical data analysis discriminated between six main primary glass types. Primary glass sources were differentiated based on multi-dimensional comparison of silica-derived elements (MgO, Al2O3, CaO, TiO2, Fe2O3, ZrO2) and components associated with the alkali source (Li2O, B2O3). Along with Egyptian and Levantine origins of the glassmaking sands, variations in the natron source possibly point to the exploitation of two different natron deposits. Differences in strontium to calcium ratios revealed variations in the carbonate fractions in the sand. At least two cobalt sources were employed as colouring agents, one of which shows strong correlations with nickel, indicating a specific post-Roman cobalt source. Typological evidence identified chronological developments in the use of the different glass groups. Throughout the sixth century, Byzantine glass weights were predominately produced from two glasses that are probably of an Egyptian origin (Foy-2 and Foy-2 high Fe). Towards the second half of the sixth century a new but related plant-ash glass type emerged (Magby). Levantine I was likewise found among the late sixth- to early seventh-century samples. The use of different dies for the same batch testifies to large-scale, centralised production of the weights, while the same die used for different primary production groups demonstrates the co-existence of alternative sources of supply. Given the comprehensive design of our study, these results can be extrapolated to the wider early Byzantine glass industry and its changes at large., Competing Interests: Competing Interests: We hereby declare that even though two of the authors (AM, CE) are affiliated with the British Museum and one author (MAB) with the Bibliothèque nationale de France, the institutions have merely provided the material and there are no competing financial, professional or personal interests that might have influenced the performance, results or presentation of the work described in this manuscript. The institutional affiliations do not alter our adherence to PLOS ONE policies on sharing data and/or materials.

Published

2016

22. Composition, production and procurement of glass at San Vincenzo Al Volturno: an early Medieval monastic complex in Southern Italy.

Author

Schibille N and Freestone IC

Subjects

Aluminum Oxide analysis, Antimony analysis, Calcium Compounds analysis, Color, History, Medieval, Italy, Manganese analysis, Oxides analysis, Oxides chemistry, Glass history

Abstract

136 glasses from the ninth-century monastery of San Vincenzo and its workshops have been analysed by electron microprobe in order to situate the assemblage within the first millennium CE glass making tradition. The majority of the glass compositions can be paralleled by Roman glass from the first to third centuries, with very few samples consistent with later compositional groups. Colours for trailed decoration on vessels, for vessel bodies and for sheet glass for windows were largely produced by melting the glass tesserae from old Roman mosaics. Some weakly-coloured transparent glass was obtained by re-melting Roman window glass, while some was produced by melting and mixing of tesserae, excluding the strongly coloured cobalt blues. Our data suggest that to feed the needs of the glass workshop, the bulk of the glass was removed as tesserae and windows from a large Roman building. This is consistent with a historical account according to which the granite columns of the monastic church were spolia from a Roman temple in the region. The purported shortage of natron from Egypt does not appear to explain the dependency of San Vincenzo on old Roman glass. Rather, the absence of contemporary primary glass may reflect the downturn in long-distance trade in the later first millennium C.E., and the role of patronage in the "ritual economy" founded upon donations and gift-giving of the time.

Published

2013

23. Late Byzantine mineral soda high alumina glasses from Asia Minor: a new primary glass production group.

Author

Schibille N

Subjects

Byzantium, Magnesium Oxide chemistry, Spectrophotometry, Atomic, Trace Elements, Turkey, Aluminum Oxide chemistry, Calcium Compounds chemistry, Glass chemistry, Minerals chemistry, Oxides chemistry, Sodium Hydroxide chemistry

Abstract

The chemical characterisation of archaeological glass allows the discrimination between different glass groups and the identification of raw materials and technological traditions of their production. Several lines of evidence point towards the large-scale production of first millennium CE glass in a limited number of glass making factories from a mixture of Egyptian mineral soda and a locally available silica source. Fundamental changes in the manufacturing processes occurred from the eight/ninth century CE onwards, when Egyptian mineral soda was gradually replaced by soda-rich plant ash in Egypt as well as the Islamic Middle East. In order to elucidate the supply and consumption of glass during this transitional period, 31 glass samples from the assemblage found at Pergamon (Turkey) that date to the fourth to fourteenth centuries CE were analysed by electron microprobe analysis (EPMA) and by laser ablation-inductively coupled plasma-mass spectrometry (LA-ICP-MS). The statistical evaluation of the data revealed that the Byzantine glasses from Pergamon represent at least three different glass production technologies, one of which had not previously been recognised in the glass making traditions of the Mediterranean. While the chemical characteristics of the late antique and early medieval fragments confirm the current model of glass production and distribution at the time, the elemental make-up of the majority of the eighth- to fourteenth-century glasses from Pergamon indicate the existence of a late Byzantine glass type that is characterised by high alumina levels. Judging from the trace element patterns and elevated boron and lithium concentrations, these glasses were produced with a mineral soda different to the Egyptian natron from the Wadi Natrun, suggesting a possible regional Byzantine primary glass production in Asia Minor.

Published

2011