Bibliography

Joas van der
Laan

2 publications between 2014 and 2017 indexed

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Contributions to journals

Purple haze: combined geochemical and Pb-Sr isotope constraints on colourants in Celtic glass

Huisman, D. J., Joas van der Laan, G. R. Davies, B. J. H. van Os, Nico Roymans, B. Fermin, and M. Karwowski, “Purple haze: combined geochemical and Pb-Sr isotope constraints on colourants in Celtic glass”, Journal of Archaeological Science 81 (2017): 59–78.

abstract:

The composition of 2977 Late Prehistoric glass objects was investigated to derive information on the nature of the colourants used. 2673 Late Iron Age Celtic (La Tène) bracelet fragments from the Netherlands and Austria and 51 Early Iron Age beads from the Netherlands were analysed. Hand-held XRF analyses demonstrated that all glass objects were of the soda-silica-lime type, which has a presumed origin in the Eastern Mediterranean. Copper was used as colourant, in the form of copper filings, in most of the Early Iron Age glass beads to give recycled glass a blue-green colour.

The vast majority (98%) of the translucent Iron Age glass, was coloured using cobalt (blue), manganese (purple; colourless), antimony (colourless) and iron (green). Manganese, however, was added to all glass, contributing additional amounts of elements like copper, cobalt and iron. Opaque decorations were produced using antimony, or a combination of tin and lead.

REE analyses on a selection of representative objects indicate that the manganese ores in translucent glass are of hydrogenetic-diagenetic (Early Iron Age) or hydrothermally influenced diagenetic (Late Iron Age) types. Strontium isotope ratios show mixing between a calcite-related seawater source (0.709) and manganese ores with isotope ratios of ∼0.70766. Lead isotope ratios are dominated by colourant-derived Pb. The isotope ratios of the manganese used to produce translucent glass and lead used for opaque glass decorations fall in the same range. The most likely general provenance of both lies on Lavrion or the Western Cycladic Islands, although an origin in the central Taurus or the Sinai mountains cannot be excluded. The conclusion is that manganese ore used for colourants contributes significantly to the REE concentration in the glass, including Nd, as well as to Sr and Pb. This needs to be taken into account when using concentrations or isotope ratios of these elements for provenancing other raw materials like sand and calcium carbonate. This appears to be the case for all antique soda-lime-silica glass.

abstract:

The composition of 2977 Late Prehistoric glass objects was investigated to derive information on the nature of the colourants used. 2673 Late Iron Age Celtic (La Tène) bracelet fragments from the Netherlands and Austria and 51 Early Iron Age beads from the Netherlands were analysed. Hand-held XRF analyses demonstrated that all glass objects were of the soda-silica-lime type, which has a presumed origin in the Eastern Mediterranean. Copper was used as colourant, in the form of copper filings, in most of the Early Iron Age glass beads to give recycled glass a blue-green colour.

The vast majority (98%) of the translucent Iron Age glass, was coloured using cobalt (blue), manganese (purple; colourless), antimony (colourless) and iron (green). Manganese, however, was added to all glass, contributing additional amounts of elements like copper, cobalt and iron. Opaque decorations were produced using antimony, or a combination of tin and lead.

REE analyses on a selection of representative objects indicate that the manganese ores in translucent glass are of hydrogenetic-diagenetic (Early Iron Age) or hydrothermally influenced diagenetic (Late Iron Age) types. Strontium isotope ratios show mixing between a calcite-related seawater source (0.709) and manganese ores with isotope ratios of ∼0.70766. Lead isotope ratios are dominated by colourant-derived Pb. The isotope ratios of the manganese used to produce translucent glass and lead used for opaque glass decorations fall in the same range. The most likely general provenance of both lies on Lavrion or the Western Cycladic Islands, although an origin in the central Taurus or the Sinai mountains cannot be excluded. The conclusion is that manganese ore used for colourants contributes significantly to the REE concentration in the glass, including Nd, as well as to Sr and Pb. This needs to be taken into account when using concentrations or isotope ratios of these elements for provenancing other raw materials like sand and calcium carbonate. This appears to be the case for all antique soda-lime-silica glass.

La Tène glass armrings in Europe. Interregional connectivity and local identity construction

Roymans, Nico, Hans Huisman, Joas van der Laan, and Bertil van Os, “La Tène glass armrings in Europe. Interregional connectivity and local identity construction”, Archäologisches Korrespondenzblatt 44:2 (2014): 215–228.

abstract:

This article discusses the production, exchange and social use of Late Iron Age glass bracelets in Western and Central Europe. Recent regional studies have produced convincing evidence for a decentralised production of glass bracelets in oppida and open settlements. However, the first chemical analyses of La Tène glass suggest that all the raw glass was imported from the Mediterranean region. This study presents and discusses the results of an extensive programme of chemical analysis of glass bracelets from the Lower Rhine region. In combination with published glass analyses from some other La Tène regions, it can be concluded that the glass bracelets are indeed made of soda glass imported from the Eastern Mediterranean. We therefore propose a model of semi-manufactured imported raw glass that was processed locally into finished products in secondary workshops. In addition, we pay attention to the cultural interpretation of these new insights. Two interesting points are made. Firstly, the evidence suggests that the large-scale import of Mediterranean raw glass and that of Italian wine and wine-related bronze vessels passed via separate and differently organised exchange networks. Secondly, it is surprising to observe that the exotic origin of the raw glass did not prevent glass ornaments from becoming a very common medium in the construction of a series of local identities of both individuals and groups in which the emphasis is on commonality rather than elite distinction.

(source: journal)

abstract:

This article discusses the production, exchange and social use of Late Iron Age glass bracelets in Western and Central Europe. Recent regional studies have produced convincing evidence for a decentralised production of glass bracelets in oppida and open settlements. However, the first chemical analyses of La Tène glass suggest that all the raw glass was imported from the Mediterranean region. This study presents and discusses the results of an extensive programme of chemical analysis of glass bracelets from the Lower Rhine region. In combination with published glass analyses from some other La Tène regions, it can be concluded that the glass bracelets are indeed made of soda glass imported from the Eastern Mediterranean. We therefore propose a model of semi-manufactured imported raw glass that was processed locally into finished products in secondary workshops. In addition, we pay attention to the cultural interpretation of these new insights. Two interesting points are made. Firstly, the evidence suggests that the large-scale import of Mediterranean raw glass and that of Italian wine and wine-related bronze vessels passed via separate and differently organised exchange networks. Secondly, it is surprising to observe that the exotic origin of the raw glass did not prevent glass ornaments from becoming a very common medium in the construction of a series of local identities of both individuals and groups in which the emphasis is on commonality rather than elite distinction.

(source: journal)