Roman glass

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Cage cup from Cologne, dated to the mid-4th century. Collection Staatliche Antikensammlung, Munich
This pyxis is exemplary of luxury Roman glassware, ca. late 1st century BC. Walters Art Museum, Baltimore

Roman glass objects have been recovered across the Roman Empire in domestic, industrial and funerary contexts. Glass was used primarily for the production of vessels, although mosaic tiles and window glass were also produced. Roman glass production developed from Hellenistic technical traditions, initially concentrating on the production of intensely coloured cast glass vessels. However, during the 1st century AD the industry underwent rapid technical growth that saw the introduction of glass blowing and the dominance of colourless or 'aqua' glasses. Production of raw glass was undertaken in geographically separate locations to the working of glass into finished vessels,[1][2] and by the end of the 1st century AD large scale manufacturing resulted in the establishment of glass as a commonly available material in the Roman world, and one which also had technically very difficult specialized types of luxury glass, which must have been very expensive.

Growth of the Roman glass industry[edit]

Roman glass from the 2nd century
Roman glass depicting a gladiator, found at Begram, Afghanistan, which was once part of the Greco-Bactrian Kingdom, but was ruled by the Kushan Empire during the contemporaneous Roman Principate period, to which the glass belongs, 52-125 AD (although there is some scholarly debate about the precise dating).[3]

Despite the growth of glass working in the Hellenistic World and the growing place of glass in material culture, at the beginning of the 1st century AD there was still no Latin word for it in the Roman World.[1] However, glass was being produced in Roman contexts using primarily Hellenistic techniques and styles (see glass, history) by the late Republican period. The majority of manufacturing techniques were time-consuming, and the initial product was a thick-walled vessel which required considerable finishing. This, combined with the cost of importing natron for the production of raw glass, contributed to the limited use of glass and its position as an expensive and high-status material.

A double-handled glass vial from Syria, c. 4th century AD

The glass industry was therefore a relatively minor craft during the Republican period; although, during the early decades of the 1st century AD the quantity and diversity of glass vessels available increased dramatically.[1] This was a direct result of the massive growth of the Roman influence at the end of the Republican period, the Pax Romana that followed the decades of civil war,[4] and the stabilisation of the state that occurred under Augustus' rule.[1] Still, Roman glasswares were already making their way from Western Asia (i.e. the Parthian Empire) to the Kushan Empire in Afghanistan and India and as far Han Empire of China. The first Roman glass found in China came from an early 1st-century BC tomb at Guangzhou, ostensibly via the South China Sea.[5][6]

In addition to this a major new technique in glass production had been introduced during the 1st century AD.[7] Glassblowing allowed glass workers to produce vessels with considerably thinner walls, decreasing the amount of glass needed for each vessel. Glass blowing was also considerably quicker than other techniques, and vessels required considerably less finishing, representing a further saving in time, raw material and equipment. Although earlier techniques dominated during the early Augustan and Julio-Claudian periods,[8] by the middle to late 1st century AD earlier techniques had been largely abandoned in favour of blowing.[1]

As a result of these factors, the cost of production was reduced and glass became available for a wider section of society in a growing variety of forms. By the mid-1st century AD this meant that glass vessels had moved from a valuable, high-status commodity, to a material commonly available: "a [glass] drinking cup could be bought for a copper coin" (Strabo, Geographica XVI.2). This growth also saw the production of the first glass tesserae for mosaics, and the first window glass,[1] as furnace technology improved allowing molten glass to be produced for the first time.[9] At the same time, the expansion of the empire also brought an influx of people and an expansion of cultural influences that resulted in the adoption of eastern decorative styles.[1] The changes that took place in the Roman glass industry during this period can therefore be seen as a result of three primary influences: historical events, technical innovation and contemporary fashions.[1] They are also linked to the fashions and technologies developed in the ceramic trade, from which a number of forms and techniques were drawn.[1]

"Circus beaker" from Roman Iron Age, found in Varpelev, Denmark
Green Roman glass cup unearthed from an Eastern Han Dynasty (25-220 AD) tomb, Guangxi, China

Glass making reached its peak at the beginning of the 2nd century AD, with glass objects in domestic contexts of every kind.[1] The primary production techniques of blowing, and to a lesser extent casting, remained in use for the rest of the Roman period, with changes in vessel types but little change in technology.[1] From the 2nd century onwards styles became increasingly regionalised,[1] and evidence indicates that bottles and closed vessels such as unguentaria moved as a by-product of the trade in their contents, and many appear to have matched the Roman scale of liquid measurement.[1] The use of coloured glass as a decorative addition to pale and colourless glasses also increased, and metal vessels continued to influence the shape of glass vessels.[1] After the conversion of Constantine, glass works began to move more quickly from depicting Pagan religious imagery towards Christian religious imagery. The movement of the capital to Constantinople rejuvenated the Eastern glass industry, and the presence of the Roman military in the western provinces did much to prevent any downturn there.[1] By the mid-4th century mould-blowing was in use only sporadically.[1]

Production[edit]

Composition[edit]

Close-up of beach sand, the main component of Roman glass

Roman glass production relied on the application of heat to fuse two primary ingredients: silica and soda.[7] Technical studies of archaeological glasses divide the ingredients of glass as formers, fluxes, stabilisers, as well as possible opacifiers or colourants.

  • Former: The major component of the glass is silica, which during the Roman period was sand (quartz), which contains some alumina (typically 2.5%) and nearly 8% lime.[4] Alumina contents vary, peaking around 3% in glasses from the western Empire, and remaining notably lower in glasses from the Middle East.[4]
  • Flux: This ingredient was used to lower the melting point of the silica to form glass. Analysis of Roman glass has shown that soda (sodium carbonate) was used exclusively in glass production.[10] During this period, the primary source of soda was natron, a naturally occurring salt found in dry lake beds. The main source of natron during the Roman period was Wadi El Natrun, Egypt, although there may have been a source in Italy.
  • Stabiliser: Glasses formed of silica and soda are naturally soluble, and require the addition of a stabiliser such as lime or magnesia. Lime was the primary stabiliser in use during the Roman period, entering the glass through calcareous particles in the beach sand, rather than as a separate component.[11]

Roman glass has also been shown to contain around 1% to 2% chlorine, in contrast to later glasses.[10] This is thought to have originated either in the addition of salt (NaCl) to reduce the melting temperature and viscosity of the glass, or as a contaminant in the natron.

Glass making[edit]

Roman blown-glass cinerary urn, dated between 1st and 3rd centuries AD

Archaeological evidence for glass making during the Roman period is scarce, but by drawing comparisons with the later Islamic and Byzantine periods, it is clear that glass making was a significant industry. By the end of the Roman period glass was being produced in large quantities contained in tanks situated inside highly specialised furnaces, as the 8-tonne glass slab recovered from Bet She'arim illustrates.[11] These workshops could produce many tonnes of raw glass in a single furnace firing, and although this firing might have taken weeks, a single primary workshop could potentially supply multiple secondary glass working sites. It is therefore thought that raw glass production was centred around a relatively small number of workshops,[11] where glass was produced on a large scale and then broken into chunks.[12] There is only limited evidence for local glass making, and only in context of window glass.[13] The development of this large-scale industry is not fully understood, but Pliny's Natural History (36, 194), in addition to evidence for the first use of molten glass in the mid-1st century AD,[9] indicates that furnace technologies experienced marked development during the early-to-mid-1st century AD, in tandem with the expansion of glass production.

The siting of glass-making workshops was governed by three primary factors: the availability of fuel which was needed in large quantities, sources of sand which represented the major constituent of the glass, and natron to act as a flux. Roman glass relied on natron from Wadi El Natrun, and as a result it is thought that glass-making workshops during the Roman period may have been confined to near-coastal regions of the eastern Mediterranean.[11] This facilitated the trade in the raw colourless or naturally coloured glass which they produced, which reached glass-working sites across the Roman empire.[11]

The scarcity of archaeological evidence for Roman glass-making facilities has resulted in the use of chemical compositions as evidence for production models,[14] as the division of production indicates that any variation is related to differences in raw glass making.[11] However, the Roman reliance on natron from Wadi El Natrun as a flux,[13] has resulted in a largely homogenous composition in the majority of Roman glasses.[13][15] Despite the publication of major analyses,[16] comparisons of chemical analyses produced by different analytical methods have only recently been attempted,[14][17] and although there is some variation in Roman glass compositions, meaningful compositional groups have been difficult to establish for this period.[11]

Recycling[edit]

Cameo glass plaque with the infant Bacchus and a satyr, early 1st century AD.

The Roman writers Statius and Martial both indicate that recycling broken glass was an important part of the glass industry, and this seems to be supported by the fact that only rarely are glass fragments of any size recovered from domestic sites of this period.[7] In the western empire there is evidence that recycling of broken glass was frequent and extensive(cullet),[13][15] and that quantities of broken glassware were concentrated at local sites prior to melting back into raw glass.[13] Compositionally, repeated recycling is visible via elevated levels of those metals used as colourants.[18]

Melting does not appear to have taken place in crucibles; rather, cooking pots appear to have been used for small scale operations. For larger work, large tanks or tank-like ceramic containers were utilised. In the largest cases, large furnaces were built to surround these tanks.

Glass working[edit]

In comparison to glass making, there is evidence for glass working in many locations across the empire. Unlike the making process, the working of glass required significantly lower temperatures and substantially less fuel. As a result of this and the expansion of the Empire, glass working sites developed in Rome, Campania and the Po Valley[7] by the end of the 1st century BC, producing the new blown vessels alongside cast vessels. Italy is known to have been a centre for the working and export of brightly coloured vessels at this time,[19] with production peaking during the mid-1st century AD.[7]

By the early-to-mid-1st century AD, the growth of the Empire saw the establishment of glass working sites at locations along trade routes, with Cologne and other Rhineland centres becoming important glass working sites from the Imperial period,[7] and Syrian glass being exported as far as Italy.[20] During this period vessel forms varied between workshops, with areas such as the Rhineland and northern France producing distinctive forms which are not seen further south.[7] Growth in the industry continued into the 3rd century AD, when sites at the Colonia Claudia Agrippinensis appear to have experienced significant expansion,[21] and by the 3rd and early 4th centuries producers north of the Alps were exporting down to the north of Italy and the transalpine regions.[20]

Glass working sites such as those at Aquileia also had an important role in the spread of glassworking traditions[21] and the trade in materials that used hollow glasswares as containers.[20] However, by the 4th[21] and 5th centuries[20] Italian glass workshops predominate.

Styles[edit]

Glass vessel from the 2nd century AD, found in Bosanski Novi

The earliest Roman glass follows Hellenistic traditions and uses strongly coloured and 'mosaic' patterned glass. During the late Republican period new highly coloured striped wares with a fusion of dozens of monochrome and lace-work strips were introduced.[1] During this period there is some evidence that styles of glass varied geographically, with the translucent coloured fine wares of the early 1st century notably 'western' in origin, whilst the later colourless fine wares are more 'international'.[8] These objects also represent the first with a distinctly Roman style unrelated to the Hellenistic casting traditions on which they are based, and are characterised by novel rich colours.[1] 'Emerald' green, dark or cobalt blue, a deep blue-green and Persian or 'peacock' blue are most commonly associated with this period, and other colours are very rare.[8] Of these, Emerald green and peacock blue were new colours introduced by the Romano-Italian industry and almost exclusively associated with the production of fine wares.[8]

However, during the last thirty years of the 1st century AD there was a marked change in style, with strong colours disappearing rapidly, replaced by 'aqua' and true colourless glasses.[7] Colourless and 'aqua' glasses had been in use for vessels and some mosaic designs prior to this, but start to dominate the blown glass market at this time.[7] The use of strong colours in cast glass died out during this period, with colourless or 'aqua' glasses dominating the last class of cast vessels to be produced in quantity, as mould and free-blowing took over during the 1st century AD.[8]

From around 70 AD colourless glass becomes the predominant material for fine wares, and the cheaper glasses move towards pale shades of blue, green, and yellow.[8] Debate continues whether this change in fashion indicates a change in attitude that placed glass as individual material of merit no longer required to imitate precious stones, ceramics, or metal,[7] or whether the shift to colourless glass indicated an attempt to mimic highly prized rock crystal.[1] Pliny's Natural History states that "the most highly valued glass is colourless and transparent, as closely as possible resembling rock crystal" (36, 192), which is thought to support this last position, as is evidence for the persistence of casting as a production technique, which produced the thickly walled vessels necessary to take the pressure of extensive cutting and polishing associated with crystal working.[1]

Vessel production techniques[edit]

The Portland Vase, 5-25AD(?) cameo glass.

Core and rod formed vessels[edit]

Artisans used a mass of mud and straw fixed around a metal rod to form a core, and built up a vessel by either dipping the core in liquified glass, or by trailing liquid glass over the core.[7] The core was removed after the glass had cooled, and handles, rims and bases were then added. These vessels are characterised by relatively thick walls, bright colours and zigzagging patterns of contrasting colours, and were limited in size to small unguent or scent containers.[7] This early technique continued in popularity during the 1st century BC,[1] despite the earlier introduction of slumped and cast vessels.

Cold-cut vessels[edit]

This technique is related to the origin of glass as a substitute for gemstones. By borrowing techniques for stone and carved gems, artisans were able to produce a variety of small containers from blocks of raw glass or thick moulded blanks,[7] including cameo glass in two or more colours, and cage cups (still thought by most scholars to have been decorated by cutting, despite some debate).

Glass blowing: free and mould blown vessels[edit]

These techniques, which were to dominate the Roman glass working industry after the late 1st century AD, are discussed in detail on the glass blowing page. Mould-blown glass appears in the second quarter of the 1st century AD.[19]

Other production techniques[edit]

A number of other techniques were in use during the Roman period:

Decorative techniques[edit]

Cast glass patterns[edit]

Ribbed bowl of mosaic glass in the Metropolitan Museum of Art
The Lycurgus Cup, a dichroic (colour-changing) cage cup, lit from behind, with a modern foot and rim.

The glass sheets used for slumping could be produced of plain or multicoloured glass, or even formed of 'mosaic' pieces. The production of these objects later developed into the modern caneworking and millefiori techniques, but is noticeably different. Six primary patterns of 'mosaic' glass have been identified:[7]

  • Floral (millefiori) and spiral patterns: This was produced by binding rods of coloured glass together and heating and fusing them into a single piece. These were then cut in cross-section, and the resulting discs could be fused together to create complex patterns. Alternately, two strips of contrasting-coloured glass could be fused together, and then wound round a glass rod whilst still hot to produce a spiral pattern.[7] Cross-sections of this were also cut, and could be fused together to form a plate or fused to plain glass.
  • Marbled and dappled patterns: Some of these patterns are clearly formed through the distortion of the original pattern during the slumping of the glass plate during melting.[7] However, by using spiral and circular patterns of alternating colours producers were also able to deliberately imitate the appearance of natural stones such as sardonyx.[1] This occurs most often on pillar-moulded bowls, which are one of the commonest glass finds on 1st century sites.[7]
  • Lace patterns: Strips of coloured glass were twisted with a contrasting coloured thread of glass before being fused together. This was a popular method in the early period, but appears to have gone out of fashion by the mid-1st century AD.[7]
  • Striped patterns: Lengths of monochrome and lacework glass were fused together to create vivid striped designs, a technique that developed from the lace pattern technique during the last decades of the 1st century AD.[1]

The production of multicoloured vessels declined after the mid-1st century, but remained in use for some time after.[7]

Gold glass[edit]

Detail of a gold glass medallion with a portrait of a family, from Alexandria (Roman Egypt), 3rd-4th century (Brescia, Museo di Santa Giulia)[22]

Gold sandwich glass or gold glass was a technique for fixing a layer of gold leaf with a design between two fused layers of glass, developed in Hellenistic glass and revived in the 3rd century. There are a very fewer larger designs, but the great majority of the around 500 survivals are roundels that are the cut-off bottoms of wine cups or glasses used to mark and decorate graves in the Catacombs of Rome by pressing them into the mortar. The great majority are 4th century, extending into the 5th century. Most are Christian, but many pagan and a few Jewish; their iconography has been much studied, although artistically they are relatively unsophisticated. In contrast, a much smaller group of 3rd century portrait levels are superbly executed, with pigment painted on top of the gold. The same technique began to be used for gold tesserae for mosaics in the mid-1st century in Rome, and by the 5th century these had become the standard background for religious mosaics.[23]

Other decorative techniques[edit]

A number of other techniques were in use during the Roman period, including enamelling and engraving.

Tesserase and window glass[edit]

Shards of broken glass or glass rods were being used in mosaics from the Augustan period onwards, but by the beginning of the 1st century small glass tiles, known as tesserae, were being produced specifically for use in mosaics.[1] These were usually in shades of yellow, blue or green, and were predominantly used in mosaics laid under fountains or as highlights.

Around the same time the first window panes are thought to have been produced.[1] The earliest panes were rough cast into a wooden frame on top of a layer of sand or stone,[1] but from the late 3rd century onwards window glass was made by the muff process, where a blown cylinder was cut laterally and flattened out to produce a sheet.[24]

Chemistry and colours[edit]

See also modern glass colors.

Colourant Content Comments Furnace Conditions
'Aqua' Iron(II) oxide
(FeO)
'Aqua', a pale blue-green colour, is the common natural colour of untreated glass. Many early Roman vessels are this colour.[7]
Colourless Iron(III) oxide
(Fe2O3)
Colourless glass was produced in the Roman period by adding either antimony or manganese oxide.[1] This oxidised the iron (II) oxide to iron (III) oxide, which although yellow, is a much weaker colourant, allowing the glass to appear colourless. The use of manganese as a decolourant was a Roman invention first noted in the Imperial period; prior to this, antimony-rich minerals were used.[1] However, antimony acts as a stronger decolourant than manganese, producing a more truly colourless glass; in Italy and northern Europe antimony or a mixture of antimony and manganese continued to be used well into the 3rd century.[25]
Amber Iron-sulfur compounds 0.2%-1.4% S[1]
0.3% Fe
Sulfur is likely to have entered the glass as a contaminant of natron, producing a green tinge. Formation of iron-sulfur compounds produces an amber colour. Reducing
Purple Manganese
(such as pyrolusite)
Around 3%[1] Oxidising[1]
Blue and green Copper 2%-13%[1] The natural 'aqua' shade can be intensified with the addition of copper. During the Roman period this was derived from the recovery of oxide scale from scrap copper when heated, to avoid the contaminants present in copper minerals.[1] Copper produced a translucent blue moving towards a darker and denser green. Oxidising[1]
Dark green Lead By adding lead, the green colour produced by copper could be darkened.[1]
Royal blue to navy Cobalt 0.1%[1] Intense colouration
Powder blue Egyptian blue[1]
Opaque red to brown (Pliny's Haematinum) Copper
lead
>10% Cu
1% - 20% Pb[1]
Under strongly reducing conditions, copper present in the glass will precipitate inside the matrix as cuprous oxide, making the glass appear brown to blood red. Lead encourages precipitation and brilliance. The red is a rare find, but is known to have been in production during the 4th, 5th and later centuries on the continent.[26] Strongly reducing
White Antimony
(such as stibnite)
1-10%[1] Antimony reacts with the lime in the glass matrix to precipitate calcium antimonite crystals creating a white with high opacity.[1] Oxidising
Yellow Antimony and lead
(such as bindheimite).[1]
Precipitation of lead pyroantimonate creates an opaque yellow. Yellow rarely appears alone in Roman glass, but was used for the mosaic and polychrome pieces.[1]

These colours formed the basis of all Roman glass, and although some of them required high technical ability and knowledge, a degree of uniformity was achieved.[1]

See also[edit]

References[edit]

  1. ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq Fleming, S. J., 1999. Roman Glass; reflections on cultural change. Philadelphia, University of Pennsylvania Museum of Archaeology and Anthropology.
  2. ^ Stern, E. M., 1999. Roman Glassblowing in a Cultural Context. American Journal of Archaeology 103/3, 441-484.
  3. ^ Warwick Ball (2016), Rome in the East: Transformation of an Empire, 2nd edition, London & New York: Routledge, ISBN 978-0-415-72078-6, p. 153.
  4. ^ a b c Dussart, O., B. Velde, et al., 2004. Glass from Qal'at Sem'an (Northern Syria): The reworking of glass during the transition from Roman to Islamic compositions. Journal of Glass Studies 46, 67-83.
  5. ^ An, Jiayao. (2002). "When Glass Was Treasured in China," in Silk Road Studies VII: Nomads, Traders, and Holy Men Along China's Silk Road, 79–94. Edited by Annette L. Juliano and Judith A. Lerner. Turnhout: Brepols Publishers. ISBN 2-503-52178-9. Page 83-84.
  6. ^ Ebrey, Patricia. (1999). The Cambridge Illustrated History of China. Cambridge: Cambridge University Press. ISBN 0-521-66991-X. Page 70.
  7. ^ a b c d e f g h i j k l m n o p q r s t Allen, D., 1998. Roman Glass in Britain. Princes Risborough, Buckinghamshire, Shire Publications.
  8. ^ a b c d e f Grose, D. F., 1991. Early Imperial Roman cast glass: The translucent coloured and colourless fine wares. Roman Glass: two centuries of art and invention. M. Newby and K. Painter. London: Society of Antiquaries of London.
  9. ^ a b Stern, E. M., 1995. Roman Mould-blown Glass. Rome, Italy, L'Erma di Fretshneidur in association with the Toledo Museum of Art.
  10. ^ a b Stern, W. B., 1990. The composition of Roman glass. Annales du 11e Congres. Amsterdam.
  11. ^ a b c d e f g Freestone, I. C., 2006. Glass production in Late Antiquity and the Early Islamic period: a geochemical perspective. Geomaterials in Cultural Heritage, Geological Society of London. Special publication 257: 201-216.
  12. ^ Freestone, I. C., M. Ponting, Hughes, M.J.,2002. Origins of Byzantine glass from Maroni Petrera, Cyprus. Archaeometry 44, 257-272.
  13. ^ a b c d e Jackson, C. M., H. E. M. Cool, Wager, E.C.W., 1998. The manufacture of glass in Roman York. Journal of Glass Studies 40, 55-61.
  14. ^ a b Baxter, M. J., H. E. M. Cool, Jackson, C.M., 2006. Comparing glass compositional analyses. Archaeometry 48/3, 399-414.
  15. ^ a b Velde, B., Year. Observations on the chemical compositions of several types of Gallo-Roman and Frankish glass production. In: 9e Congres International d'Etude Historique du Verre, Nancy, France: Editions du Centre de Publications de L'A.I.H.V.
  16. ^ Brill, R. H., 1999. Chemical Analyses of Early Glasses. New York, Corning Museum of Glass.
  17. ^ Degryse, P., 2014. Glass Making in the Greco-Roman World, Results of the ARCHGLASS Project, Leuven University Press.
  18. ^ Freestone, I. C., 2005. The provenance of ancient glass through compositional analysis. Materials Issues in Art and Archaeology 7.
  19. ^ a b Price, J., 1990. A survey of the Hellenistic and early Roman vessel glass found on the Unexplored Mansion Site at Knossos in Crete. Annales du 11e Congres. Amsterdam.
  20. ^ a b c d Facchini, G. M., 1990. Roman glass in an excavational context: Angere (VA). Annales du 11e Congres. Amsterdam.
  21. ^ a b c Caldera de Castro, M. d. P., 1990. Roman glass in southwest Spain. Annales du 11e Congres. Amsterdam.
  22. ^ Jás Elsner (2007). "The Changing Nature of Roman Art and the Art Historical Problem of Style," in Eva R. Hoffman (ed), Late Antique and Medieval Art of the Medieval World, 11-18. Oxford, Malden & Carlton: Blackwell Publishing. ISBN 978-1-4051-2071-5, p. 17, Figure 1.3 on p. 18.
  23. ^ Beckwith, John, Early Christian and Byzantine Art, pp. 25-26, Penguin History of Art (now Yale), 2nd edn. 1979, ISBN 0140560335
  24. ^ Forbes, R. J., 1966. Studies in ancient technology V. Editors: Leiden, Brill.
  25. ^ Jackson, Caroline (2005). "Making colourless glass in the Roman period". Archaeometry. 47 (4): 763–780. doi:10.1111/j.1475-4754.2005.00231.x.
  26. ^ Evison, V. I., 1990. Red marbled glass, Roman to Carolingian. Annales du 11e Congres. Amsterdam.

Bibliography[edit]

  • Allen, D., 1998. Roman Glass in Britain. Princes Risborough, Buckinghamshire, Shire Publications.
  • Amrein, H.,2001, L'atelier de verriers d'Avenches. L'artisanat du verre au milieu du 1er siècle après J.-C., Cahiers d'archéologie romande 87, Lausanne 2001.
  • Baxter, M. J., H. E. M. Cool, et al., 2006. Comparing glass compositional analyses. Archaeometry 48/3, 399-414.
  • Biek, L. and J. Bayley, 1979. Glass and other Vitreous Materials. World Archaeology 11, Early Chemical Technology/1, 1-25.
  • Brill, R. H., 1999. Chemical Analyses of Early Glasses. New York, Corning Museum of Glass.
  • Caldera de Castro, M. d. P., 1990. Roman glass in southwest Spain. In Annales du 11e Congres. Amsterdam.
  • Caron, B., 1993. A Roman Figure-Engraved Glass Bowl. Metropolitan Museum Journal 28, 47-55.
  • Degryse, P., 2014. Glass Making in the Greco-Roman World, Results of the ARCHGLASS Project, Leuven University Press.
  • Dussart, O., B. Velde, et al., 2004. Glass from Qal'at Sem'an (Northern Syria): The reworking of glass during the transition from Roman to Islamic compositions. Journal of Glass Studies 46, 67-83.
  • Evison, V. I., 1990. Red marbled glass, Roman to Carolingian. In Annales du 11e Congres. Amsterdam.
  • Facchini, G. M., 1990. Roman glass in an excavational context: Angere (VA). In Annales du 11e Congres. Amsterdam.
  • Fleming, S. J., 1999. Roman Glass; reflections on cultural change. Philadelphia, University of Pennsylvania Museum of Archaeology and Anthropology.
  • Forbes, R. J., 1966. Studies in ancient technology V. Leiden, Brill.
  • Freestone, I. C., 2005. The provenance of ancient glass through compositional analysis. Materials Issues in Art and Archaeology 7.
  • Freestone, I. C., 2006. Glass production in Late Antiquity and the Early Islamic period: a geochemical perspective. Geomaterials in Cultural Heritage: Geological Society of London. Special publication 257: 201-216.
  • Freestone, I. C., M. Ponting, Hughes, M.J., 2002. Origins of Byzantine glass from Maroni Petrera, Cyprus. Archaeometry 44, 257-272.
  • Grose, D. F., 1991. Early Imperial Roman cast glass: The translucent coloured and colourless fine wares. Roman Glass: two centuries of art and invention. M. Newby and K. Painter. London: Society of Antiquaries of London.
  • Gudenrath, W., 2006. Enameled Glass Vessels, 1425 BC - 1800: The decorating Process. Journal of Glass Studies 48, 23.
  • Jackson, C. M., H. E. M. Cool, Wager, E.C.W., 1998. The manufacture of glass in Roman York. Journal of Glass Studies 40, 55-61.
  • Meredith, H. G., 2015. Word becomes Image: Open-Work Vessels as a Reflection of Late Antique Transformation. Archaeopress Archaeology Series. Oxford: Archaeopres.
  • Price, J., 1990. A survey of the Hellenistic and early Roman vessel glass found on the Unexplored Mansion Site at Knossos in Crete. Annales du 11e Congres. Amsterdam.
  • Rutti, B., 1991. Early Enamelled Glass. In M. Newby and K. Painter (eds.) Roman Glass: two centuries of art and invention. London: Society of Antiquaries of London.
  • Silvestri, A., G. Molin, et al., 2005. Roman and medieval glass from the Italian area: Bulk characterization and relationships with production technologies. Archaeometry 47/4, 797-816.
  • Stern, E. M., Roman Mould-blown Glass. Rome, Italy: L'Erma di Bretschneider in association with the Toledo Museum of Art.
  • Stern, E. M., 1991. Early Exports Beyond the Empire. Roman Glass: two centuries of art and invention. M. Newby and K. Painter. London: Society of Antiquaries of London.
  • Stern, E. M., 1999. Roman Glassblowing in a Cultural Context. American Journal of Archaeology 103/3, 441-484.
  • Stern, W. B., 1990. The composition of Roman glass. In: Annales du 11e Congres. Amsterdam.
  • Velde, B., Year. Observations on the chemical compositions of several types of Gallo-Roman and Frankish glass production. In: 9e Congres International d'Etude Historique du Verre, Nancy, France: Editions du Centre de Publications de L'A.I.H.V.
  • Whitehouse, D., 1990. Late Roman cameo glass. In: Annales du 11e Congres. Amsterdam.
  • Whitehouse, D., 1991. Cameo Glass. Roman Glass: two centuries of art and invention. M. Newby and K. Painter. London: Society of Antiquaries of London.(UK)

Further reading[edit]