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Interdisciplinary Science Reviews Volume 24, 1999 - Issue 4
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Regular Papers

The role of interdisciplinary science in the study of ancient pottery

D. GriffithsInstitute of Archaeology University College London, UK
Pages 289-300 | Published online: 18 Jul 2013

Notes and literature cited

  • In this section many of the sources cited have been selected because they provide the reader with a range of information on studies of archaeological ceramics. The specific citations thus also serve as a bibliography.
  • A. Kelly: ‘Materials science – why so fashionable?’, Interdisc. Sci. Rev., 1998, 23, 321–324.
  • C. Orton, P. Tyers, and A. Vince: ‘Pottery in archaeology’; 1993, Cambridge, Cambridge University Press.
  • D. Arnold: ‘Ceramic theory and cultural process’; 1985, Cambridge, Cambridge University Press; and C. Renfrew and P. Bahn: ‘Archaeology: theory, methods and practice’; 1991, London, Thames and Hudson.
  • J. Gleeson: ‘The arcanum: the extraordinary true story of the invention of European porcelain’; 1998, London, Bantam Press.
  • I. Freestone and D. Gaimster: ‘Pottery in the making: world ceramic traditions’; 1997, London, British Museum Press.
  • W. K. Barnett and J. W. Hoopes (ed.): ‘The emergence of pottery: technology and innovation in ancient societies’; 1995, Washington, DC, Smithsonian Institution Press.
  • M. Maggetti: ‘Phase analysis and its significance for technology and provenance’, in ‘Archaeological ceramics ’, (ed. J. S. Olin and A. D. Franklin), 121–133; 1982, Washington, DC, Smithsonian Institution Press.
  • P. J. Ucko: ‘The biography of a collection: the Sir Flinders Petrie Palestinian collection and the role of university museums’, Mus. Manage. Curatorship, 1999, 17, 1–49.
  • M. J. Aitken: ‘Science-based dating in archaeology’; 1990, London, Longman.
  • See for example the fifth of Sir William Bragg’s 1925 Royal Institution Christmas Lectures, ‘The trade of the potter’, in W. Bragg: ‘Old trades and new knowledge’; 1926, London, Bell and Sons; R. U. Sayce: ‘Primitive arts and crafts’; 1933, Cambridge, Cambridge University Press; and A. O. Shepard: ‘Ceramics for the archaeologist’; 1956, Washington, DC, Carnegie Institution.
  • D. D. Eberl: ‘Clay mineral formation and transformation in rocks and soils’, Phil. Trans. R. Soc. (London) A, 1984, 311, 241–257.
  • See for example N. C. Brady: ‘The nature and properties of soils’; 1974, New York, NY, Macmillan; G. Brown: ‘Crystal structures of clay minerals and related phyllosilicates’, Phil. Trans. R. Soc. (London) A, 1984, 311, 221–240; F. Hamer and J. Hamer: ‘The potter’s dictionary’, 2nd edn; 1986, London, A. & C. Black; W. D. Kingery, H. K. Bowen, and D. R. Uhlmann: ‘Introduction to ceramics’, 2nd edn; 1976, New York, NY, Wiley-Interscience; W. D. Kingery and P. B. Vandiver: ‘Ceramic masterpieces’; 1986, New York, NY, Free Press; W. E. Krumbein (ed.): ‘Microbial geochemistry’; 1983, Oxford, Blackwell; D. B. Nahon: ‘Introduction to the petrology of soils and chemical weathering’; 1991, New York, NY, Wiley-Interscience; A. C. D. Newman: ‘Chemistry of clays and clay minerals’; 1987, London, Longman/Mineralogical Society; C. Ollier: ‘Weathering’, 2nd edn; 1984, London, Longman; P. M. Rice: ‘Pottery analysis’; 1987, Chicago, University of Chicago Press; O. S. Rye: ‘Pottery technology’; 1981, Washington, DC, Taraxacum; W. Stumm: ‘Chemistry of the solid–water interface’; 1992, New York, NY, Wiley-Interscience; and W. E. Worrall: ‘Clays and ceramic raw materials’; 1986, London, Elsevier.
  • R. E. Alexander and R. H. Johnston: ‘Xeroradiography of ancient objects: a new imaging modality’, in ‘Archaeological ceramics ’, (ed. J. S. Olin and A. D. Franklin), 145–154; 1982, Washington, DC, Smithsonian Institution Press.
  • See H. Fraser: ‘Ceramic faults and their remedies’; 1986, London, A. & C. Black; F. Hamer and J. Hamer: ‘The potter’s dictionary’, 2nd edn; 1986, London, A. & C. Black; and G. Torraca: ‘Porous building materials’, 3rd edn; 1988, Rome, ICCROM.
  • O. S. Rye: ‘Pottery technology’; 1981, Washington, DC, Taraxacum.
  • P. M. Rice: ‘Pottery analysis’, 426–427; 1987, Chicago, University of Chicago Press; and R. B. Heimann: ‘Firing technologies and their possible assessment by modern analytical methods’, in ‘Archaeological ceramics’, (ed. J. S. Olin and A. D. Franklin), 89–96; 1982, Washington, DC, Smithsonian Institution Press.
  • M. Tucker: ‘Techniques in sedimentology’; 1988, Oxford, Blackwell; and c. D. Gribble and A. J. Hall: ‘A practical introduction to optical mineralogy’; 1985, London, Allen and Unwin.
  • P. Picouet, et al. : ‘Cathodoluminescence spectroscopy of quartz grains as a tool for ceramic provenance’, J. Archaeol. Sci., 1999, 26, 943–950.
  • P. J. Potts: ‘A handbook of silicate rock analysis’; 1987, Glasgow, Blackie.
  • A. M. Pollard and c. Heron: ‘Archaeological chemistry’, Chap. 7; 1996, Cambridge, Royal Society of Chemistry; and J. S. Mills and R. White: ‘The organic chemistry of museum objects’, 2nd edn; 1994, Oxford, Butterworth-Heinemann.
  • D. R. Griffiths and A. M. Feuerbach: ‘Thermal processing in the last millennium’, Mater. World, 1999, 7, 472–474.
  • R. Siddall: ‘The use of volcaniclastic material in Roman hydraulic concretes: a brief review’, in ‘The archaeology of geological catastrophes ’, (ed. W. J. McGuire, D. R. Griffiths, P. Hancock, and I. Stewart); 2000, London, Geological Society.
  • M. Bimson and I. C. Freestone: ‘Early vitreous materials’; 1987, London, British Museum Press.
  • W. D. Kingery and P. B. Vandiver: ‘Ceramic masterpieces’; 1986, New York, NY, Free Press; J. Ayers, M, Medley, and N. Woods: ‘Iron in the fire’; 1988, London, Oriental Ceramics Society; and J. R. Taylor and A. C. Bull: ‘Ceramics glaze technology’; 1986, Oxford, Pergamon.
  • C. P. Stapleton, I. C. Freestone, and S. G. E. bowman: ‘Composition and origin of early mediaeval opaque red enamel from Britain and Ireland’, J. Archaeol. Sci., 1999, 26, 913–922.
  • Consider for example some of the remarkable chemical and geochemical discoveries that arose from investigations of the use of ESR spectrometry for determining the thermal history of archaeological flint, e.g. D. R. Griffiths, et al. : ‘Trapped methyl radicals in chert’, Nature, 1982, 300, 435–436 and H. Chandra, M. C. R. Symons, and D. R. Griffiths: ‘Stable perinaphthenyl radicals in flints’, Nature, 1987, 332, 526–527.

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