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X-Radiography of Knossian Bronze Age Vessels: Assessing our Knowledge of Primary Forming Techniques1

Published online by Cambridge University Press:  10 June 2011

Ina Berg
Ina Berg
Affiliation:
School of Arts, Histories and Cultures, University of Manchester
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Abstract

This article investigates the potential of X-radiography for identifying primary forming techniques of Cretan Bronze Age vessels. X-radiography of 95 EM III through to LM II vessels from Knossos has now demonstrated its suitability for fine, semicoarse and coarse Cretan fabrics. In several cases, it has been possible to rectify erroneous attributions based on visual inspection alone and to provide more specific details of the diversity and development of past forming techniques.

Στο άρθρο αυτό εξετάζονται οι δυνατότητες της ραδιογραφίας ακτίνων-Χ στην αναγνώριση βασικών τεχνικών κατασκευής των κρητικών αγγείων της Εποχής του Χαλκού. Η ακτινογράφηση ενενήντα πέντε IIM III έως και YM II αγγείων από την Κνωσό, χρονολογούμενων από την IIM III έως την YM II, απέδειξε την καταλληλότητά της τεχνικής αυτής για την εξέταση της κρητικής λεπτής, ημιχονδροειδούς και χονδροειδούς κεραμικής. Σε αρκετές περιπτώσεις, κατέστη δυνατόν να διορθωθούν εσφαλμένα συμπεράσματα, που είχαν βασιστεί αποκλειστικά σε οπτική παρατήρηση, και να διευκρινιστούν καλύτερα συγκρεκριμενες περισσότερο οι ακριβείς λεπτομέρειες ως προς την ποικιλία και την εξέλιξη των παλαιών τεχνικών κατασκευής.

Type
Articles
Information
Annual of the British School at Athens , Volume 104 , November 2009 , pp. 137 - 173
Copyright
Copyright © The Council, British School at Athens 2009

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References

BIBLIOGRAPHY

Beek, G. van. 1969. Hajar Bin Humeid. Investigations at a Pre-Islamic Site in South Arabia (Baltimore).Google Scholar
Berg, I. 2008. ‘Looking through pots: recent advances in ceramics X-radiography'. JAS 35, 1177–88.Google Scholar
Berg, I. and Ambers, J. forthcoming. ‘Identifying forming techniques in Knossian Bronze Age pottery: the potential of X-radiography’, Proceedings of the 10th International Cretological Congress, Chania, 1–8 October 2006.Google Scholar
Blakely, J.A., Brinkmann, R., and Vitaliano, C.J. 1989. ‘Pompeian Red Ware: processing archaeological ceramic data’, Geoarchaeology, 4, 201–28.CrossRefGoogle Scholar
Carmichael, R.H. 1990. ‘Nasca pottery construction’, Nawpa Pacha, 24, 3148.CrossRefGoogle Scholar
Carmichael, R.H. 1998. ‘Nasca ceramics: production and social context’, in Shimada, I. (ed.), Andean Ceramics: Technology, Organization, and Approaches (MASCA Research Papers in Science and Archaeology 15; Philadelphia), 213–31.Google Scholar
Carr, C. 1990. ‘Advances in ceramic radiography and analysis: applications and potentials’, JAS 17 1334.Google Scholar
Carr, C. and Riddick, E.B. Jr 1990. ‘Advances in ceramic radiography and analysis: laboratory methods’, JAS 17, 3566.Google Scholar
Catling, E.A., Catling, H.W., and Smyth, D. 1979. ‘Knossos 1975: Middle Minoan III and Late Minoan I houses by the Acropolis’, BSA 74, 180.Google Scholar
Courty, M.A. and Roux, V. 1995. ‘Identification of wheel throwing on the basis of ceramic surface features and microfabrics’, JAS 22, 1750.Google Scholar
Culin, S. 1896. An Archaeological Application of the Röntgen Rays (Bulletin no. 4; Philadelphia), 183.Google Scholar
Digby, A. 1948. ‘Radiographie examination of Peruvian pottery techniques’, in Actes du XXVIII Congrès International des Américanistes (Paris), 605–8.Google Scholar
Ellingson, W.A., Vandiver, P.B., Robinson, T.K., and Lobick, JJ. 1988. ‘Radiographie imaging technologies for archaeological ceramics’, in Sayre et al. (1988), 2532.Google Scholar
Foster, G.V. 1983. ‘Kourion votive figures: a study using Xeroradiography’, MASCA, 2, 179–81.Google Scholar
Giannoulaki, M., Argyropoulos, V., Panou, Th., Moundrea-Agrafioti, A., and Themelis, P. 2006. ‘The feasibility of using portable X-ray radiography for the examination of the technology and the condition of a metals collection housed in the Museum of Ancient Messene, Greece’, E-Journal of Science and Technology, 1, 4863.Google Scholar
Gilardoni, A. 1994. X-rays in Art, 2nd edn. (Lecco).Google Scholar
Glanzman, W.D. 1983. ‘Xeroradiographic examination of pottery manufacturing techniques: a test case from the Baq'ah Valley, Jordan’, MASCA 2, 163–9.Google Scholar
Glanzman, W.D. and Fleming, S.J. 1986. ‘Technology. Fabrication methods’, in McGovern, P.E. (ed.), The Late Bronze and Early Iron Ages of Central Transjordan: The Baq'ah Valley Project, 1977–1981 (Philadelphia), 164–7.Google Scholar
Graham, D. and Eddie, T. 1985. X-Ray Techniques in Art Galleries and Museums (Bristol and Boston).Google Scholar
Halmshaw, R. 1995. Industrial Radiology: Theory and Practice, 2nd edn. (London).CrossRefGoogle Scholar
Henrickson, R.C. 1991. ‘Wheelmade or wheel-finished? Interpretation of “wheelmarks” on pottery’, in Vandiver, P.B., Druzik, G.S., and Wheeler, G.S. (eds.), Materials Issues in Art and Archaeology, ii (Pittsburgh, PA), 523–41.Google Scholar
Johnston, R.H. and Betancourt, P.P. 1984. ‘Xeroradiography studies’, in Betancourt, P.P. (ed.), East Cretan White-on-Dark Ware (Philadelphia), 114–17.Google Scholar
Knappett, C. 1999. ‘Tradition and innovation in pottery forming technology: wheel-throwing at Middle Minoan Knossos’, BSA 94, 101–29.Google Scholar
Knappett, C. 2004. ‘Technological innovation and social diversity at Middle Minoan Knossos’, in Cadogan, G., Hatzaki, E., and Vasilakis, A. (eds.) Knossos: Palace, City, State (British School at Athens Studies, 12; London), 257–65.Google Scholar
Lang, J. and Middleton, A. (eds.) 2005. Radiography of Cultural Material (London).Google Scholar
Lang, J., Middleton, A.Ambers, J. and Higgins, T. 2005. ‘Radiographic images’, in Lang and Middleton (2005), 2048.Google Scholar
Leonard, A., Hughes, M.J., Middleton, A.P., and Schofield, L. 1993. ‘The making of Aegean stirrup jars: technique, tradition and trade’, BSA 88, 105–23.Google Scholar
Levi, S.T. 1999. Produzione e circolazione della Ceramica nella Sibaritide Protostorica, i: Impasto e dolii (Firenze).Google Scholar
MacGillivray, J.A. 1998. Knossos: Pottery Groups of the Old Palace Period (London).Google Scholar
MacGillivray, J.A. 2007. ‘Protopalatial (MM I B-MM III A)’, in Momigliano, N. (ed.), Knossos Pottery Handbook. Neolithic and Bronze Age (Minoan) (BSA Studies, 14; London), 105–49.Google Scholar
Magrill, P. and Middleton, A. 2004. ‘Late Bronze Age pottery technology: Cave 4034 revisited’, in Ussishkin, D. (ed.), The Renewed and Archaeological Excavations at Lachish (1973–1994), v (Tel Aviv), 2514–49.Google Scholar
Maniatis, Y., Jones, R.E., Whitbread, I.K., Kostikas, A., Simopoulos, A., Karakalos, Ch., and Williams, C.K. II, 1984. ‘Punic amphoras found at Corinth, Greece: an investigation of their origin and technology’, JFA 11, 205–22.Google Scholar
Middleton, A. 2005. ‘Ceramics’, in Lang and Middleton (2005), 7695.Google Scholar
Momigliano, N. 1991. ‘MM I A pottery from Evans’ excavations at Knossos: a reassessment’, BSA 86, 149271.Google Scholar
Momigliano, N. 2000. ‘Knossos 1902, 1905: the Prepalatial and Protopalatial deposits from the Room of the Jars in the Royal Pottery Stores’, BSA 95, 65105.Google Scholar
Momigliano, N. and Hood, S. 1994. ‘Excavations of 1987 on the South Front of the Palace at Knossos’, BSA 89, 103–50.Google Scholar
Momigliano, N. and Wilson, D.E. 1996. ‘Knossos 1993: excavations outside the South Front of the Palace’, BSA 91, 157.Google Scholar
Nenk, B. and Walker, H. 1991. ‘An aquamanile and a spouted jug in Lyveden-Stanion Ware’, Medieval Ceramics, 15, 25–8.Google Scholar
O'Connor, S. and Maher, J. 2001. ‘The digitization of X-radiographs for dissemination, archiving and improved image interpretation’, The Conservator, 25, 315.CrossRefGoogle Scholar
O'Connor, S., Maher, J. and Janaway, R. 2002. ‘Towards a replacement for xeroradiography’, The Conservator, 26, 100–14.CrossRefGoogle Scholar
Petrie, W.M.F. 1898. Deshashes 1897 (Fifteenth Memoir of the Egypt Exploration Fund; London).Google Scholar
Philpotts, A.R. and Wilson, N. 1994. ‘Application of petrofabric and phase equilibria analysis to the study of a potsherd’, JAS 21, 607–18.Google Scholar
Pierret, A., Moran, C.J., and Bresson, L.-M. 1996. ‘Calibration and visualization of wall-thickness and porosity distributions of ceramics using X-radiography and image processing’, JAS 23, 419–28.Google Scholar
Popham, M.R. 1969. ‘Trial KV (1969), A Middle Minoan building at Knossos’, BSA 69, 181–94.Google Scholar
Poursat, J.-C. and Knappett, C. 2005. La Poterie du Minoen Moyen II : production et utilisation. Fouilles exécutées à Malia, Le Quartier Mu TV (Études Cretoises, 33; Athens).Google Scholar
Röntgen, W.C. 1896. ‘On a new kind of rays’, Nature, 53, 274–6.Google Scholar
Roux, V. and Courty, M.A. 1998. ‘Identification of wheel-fashioning methods: technological analysis of 4th-3rd Millennium BC oriental ceramics’, JAS 25, 747–63.Google Scholar
Rye, O.S. 1977. ‘Pottery manufacturing techniques: X-ray studies’, Archaeometry, 19, 205–11.CrossRefGoogle Scholar
Rye, O.S. 1981. Pottery Technology: Principles and Reconstruction (Washington, DC).Google Scholar
Sayre, E.V., Vandiver, P., Cruzik, J., and Stevenson, C. (eds.) 1988. Materials Issues in Art and Archaeology (Materials Research Society Symposium Proceedings, 123; Pittsburgh, PA).Google Scholar
Titterington, P.F. 1935. ‘Certain bluff mounds of Western Jersey County, Illinois’, American Antiquity, 1, 646.CrossRefGoogle Scholar
Vandiver, P.B. 1987. ‘Sequential slab construction; a conservative Southwest Asiatic ceramic tradition, ca. 7000–3000 BC’, Paléorient, 13, 935.CrossRefGoogle Scholar
Vandiver, P.B. 1988. ‘Reconstructing and interpreting the technologies of ancient ceramics’, in Sayre et al. (1988), 89102.Google Scholar
Vandiver, P.B. and Tumosa, C.S. 1995. ‘Xeroradiographic imaging’, AJA 99, 121–4.Google Scholar
Vandiver, P.B., Ellingson, W.A., Robinson, T.K., Lobick, J.J., and Séguin, F.H. 1991. ‘New applications of X-radiographic imaging technologies for archaeological ceramics’, Archeomateriah, 5, 185207.Google Scholar