Institut français
d’archéologie orientale - Le Caire

Verre byzantin et islamiqueByzantine and Islamic Glass

Maria Mossakowska-Gaubert

masquer la recherchehide search
Critères de rechercheSearch criteria
titre, auteur, périodiquetitle, author, periodic issue
identification du matériel, musée/coll.identification of the material, museum/coll.
forme, technique et technologie de prod.form, technique and prod. technology
pays, région, site; production ou consommationcountry, region, site; production or consumption
contexte archéologiquearchaelogical context
sources et questions particulièressources and specific problems
date inf.inf. date date sup.sup. date

vignette
Poids en verre, fouilles de Fusṭāṭ (© IFAO)Glass weight, Fusṭāṭ excavations (© IFAO)
<- précédentprevious   référencesreferences 9/64   suivantfollowing ->      retour listeback to list
64 référencesreferences (5 pages)  ToutAll
1 - 2 - 3 - 4 - 5


FREESTONE, Ian C.
Glass Production in Late Antiquity and the Early Islamic Period: a Geochemical Perspective
MAGGETTI, M., MESSIGA, B.
Geomaterials in Cultural Heritage
Geological Society, London, Special Publications 257
Geological Society of London, London, 2006, p. 201-216

[1, 1400]
• Preliminary remarks:
– phenomenon of trade of raw glass;
– single primary workshop could supply many secondary workshops, dispersed over a very large area;
– glass compositions reflect predominantly the primary glassmaking sources, rather than the secondrary workshops in which the objects were made.

• Soda-lime-silica glasses (Antiquity and the Early Islamic Period) – some caracteristics:

– The low-K2O, low-MgO glass is generally used, for most of the first millennium A.D., to the west of the Euphrates, and high-K2O, high-MgO to the est of the Euphrates. A switch from the use of mineral soda to plant ash flux in western regions is observed from the middle of the ninth century A.D.

– low-K2O, low-MgO:
– soda sources:
- evaporitic minerals (especially trona, traditionally known as natron) from Egypt (Wadi Natrun, al-Burnuj - Western Delta) and possibly other locations.

– silica sources:
- pebbles, or, more frequently, sand of siliceous minerals and rocks as vein quartz, chert and quartzite.

– lime sources:
- sand containing calcium carbonate in the form of particles of shell or limestone;
- crushed shell or limestone added to the batch.

– measuring of concentration of strontium and its isotopes ( 87Sr/86Sr) as element to determine the form in which the lime was added to the glass (cf. Freestone et al. 2003):
- glass made with marine biogenic carbonate has ralatively high strontium/calcium ratios,
- glass made with limestone inland sand has low strontium/calcium ratios.

– high-K2O, high-MgO:
– soda sources:
- ash produced by burning halophytic plants, for exemple ‘Salicornia’ and ‘Salsola’, from semi-arid and coastal environments.

– silica sources:
- pebbles, or, more frequently, sand of siliceous minerls and rocks as vein quartz, chert and quartzite.

– lime sources:
- plant ash: limestone-derived stronium detected (from soils parental to the plants that were ashed to make the glass).

– plant ash glass is more complex than glass produced from mineral soda: plant ash carries many minor and trace elements at similar levels of abundance to the source of silica.

– some essays of distincion of plant ash glass groups by anylyses of 87Sr/86Sr and δ18O distribution.

• Recycling of old glass may be recognized by the presence of elevated transition metals (analyses of trace element composition).

• Chemical analyses: K2O, MgO, CaO, Sr, 87Sr/86Sr, Al2O3, MnO, FeO, δ18O; trace elements: Ga, Rb, Sr, Y, Zr, Ba, La, Ce, Pr, Nd, Tr.
Chypre Cyprus Maroni Petrera consommation
Egypte Egypt Ashmounein Ashmunein production
Sinaï Nord North Sinai consommation
Grande-Bretagne Great Britain Jarrow consommation
Leicester consommation
Irak Iraq Nineveh consommation
Israël Israel Arsuf (Apollonia) production
Banias production
Bet Eliʿezer (Hadera) production
Bet Sheʾan (Nysa - Scythopolis) production
Bet Sheʿarim production
Liban Lebanon Tyr Tyre production
Oman Oman Ra’s al Hadd consommation
Syrie Syria Raqqa production

Version 5, données dudata date 30 janvier 2013January 30th 2013