Hostname: page-component-586b7cd67f-r5fsc Total loading time: 0 Render date: 2024-11-22T20:33:10.506Z Has data issue: false hasContentIssue false
  • English
  • Français

New evidence for an early date for the Aegean Late Bronze Age and Thera eruption

Published online by Cambridge University Press:  02 January 2015

Sturt W. Manning ,
Christopher Bronk Ramsey ,
Christos Doumas ,
Toula Marketou ,
Gerald Cadogan  and
Charlotte L. Pearson
Sturt W. Manning
Affiliation:
Department of Archaeology, University of Reading, Whiteknights PO Box 227, Reading RG6 6AB, England. [email protected]
Christopher Bronk Ramsey
Affiliation:
Research Laboratory for Archaeology & the History of Art, University of Oxford, 6 Keble Road, Oxford OX1 3QJ, England
Christos Doumas
Affiliation:
Archaeological Society of Athens, Excavations at Akrotiri, Thera, Tholou 10, Athens 105 56, Greece
Toula Marketou
Affiliation:
22nd Ephorate of Prehistoric & Classical Antiquities of Dodekanese, Argyrokastrou Square, Rhodes 851 00, Greece
Gerald Cadogan
Affiliation:
Old Rectory, Culworth, Banbury OX17 2AT, England
Charlotte L. Pearson
Affiliation:
Department of Archaeology, University of Reading, Whiteknights PO Box 227, Reading RG6 6AB, England. [email protected]
Get access Rights & Permissions [Opens in a new window]

Extract

The authors report on radiocarbon data derived from carefully selected organic material from Late Minoan IA and IB contexts. The results suggest that the accepted chronology of the period should be revised by 100 years and that the eruption of Thera/Santorini most likely occurred c. 1650–1620 BC.

Keywords

radiocarbonLate Bronze AgeTheraLate Minoanchronology
Type
Papers
Information
Antiquity , Volume 76 , Issue 293 , September 2002 , pp. 733 - 744
Copyright
Copyright © Antiquity Publications Ltd. 2002

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Betancourt, P.P. 1987. Dating the Aegean Late Bronze Age with radiocarbon, Archaeometry 29: 45–9.Google Scholar
Bietak, M. & Hein, I. 2001. The context of White Slip wares in the stratigraphy of Tell el- Dab a and some conclusions on Aegean chronology, in Karageorghis, (ed.): 171–94.Google Scholar
Bronx Ramsey, C. 1995. Radiocarbon calibration and analysis of stratigraphy: the OxCal program, Radiocarbon 37:425–30.CrossRefGoogle Scholar
Bronx Ramsey, C. 2000. Developement of the radiocarbon calibration program Oxcal, Radiocarbon 43: 355–64.Google Scholar
Driessen, J. & MacDonald, C.F. 1997. The troubled island. Minoan Crete before and after the Santorini eruption. Liège: Université de Liège. Histoire de l'art et archéologie de la Grèce antique.Google Scholar
Eriksson, K.O. 1992. Late Cypriot I and Thera: relative chronology iu the eastern Mediterranean, in Äström, P. (ed.), Acta Cypria: acts of an international congress on Cypriote archaeology held in Göteborgon 22-24 August 1991, Part 3: 152223. Jonsered: Paul Äströms Förlag. Studies in Mediterranean Archaeology and Literature Pocket-book 120.Google Scholar
Fishman, B. & Lawn, B. 1978. University of Pennsylvania radiocarbon dates XX, Radiocarbon 20: 210–33.Google Scholar
Friedrich, W.L., Wagner, P. & Tauber, H. 1990. Radiocarbon dated plant remains from the Akrotiri excavation on Santorini, Greece, in Hardy & Renfrew (ed.): 183–96.Google Scholar
Hardy, D. & Renfrew, C. (ed.). 1990. Thera and the Aegean World TTT, Vol. 3: Chronology. London: Thera Foundation.Google Scholar
Hedges, R.F.M., Humm, M.J., Foreman, F., Van Klinken, G.J. & Bronk, C.R. 1992. Developments in sample combustion to carbon dioxide, and in the Oxford AMS carbon dioxide ion-source system, Radiocarbon 34: 306–11.Google Scholar
Hedges, R.E.M., Law, I.A., Bronk, C.R. & Housley, R.A. 1989. The Oxford accelerator mass spectrometry facility: technical developments in routine dating, Archaeometry 31: 99113.CrossRefGoogle Scholar
Housley, R.A., Hedges, R.E.M., Law, I.A. & Bronk, C.R. 1990. Radiocarbon dating by AMS of the destruction of Akrotiri, in Hardy & Renfrew (ed.): 207-15.Google Scholar
Housley, R.A., Manninc, S.W., Cadogan, G., Jones, R.E. & Hedges, R.E.M. 1999. Radiocarbon, calibration, and the chronology of the Late Minoan IB phase, Journal of Archaeological Science 26: 159–71.CrossRefGoogle Scholar
Karageorghis, V. (ed.) 2001. The White Slip ware of Lute Bronze Age Cyprus. Vienna: Verlag der Österreichischen Akademie der Wissenschaften.Google Scholar
Kemp, B.J. & Merrillees, R.S. 1980. Minoan pottery in second millennium Egypt. Mainz am Rhein: Philipp von Zabern.Google Scholar
Macdonald, C.F. 2001. Chronologies of the Thera eruption, American Journal of Archaeology 105: 527—32.Google Scholar
Manning, S.W. 1988. The Bronze Age eruption of Thera: absolute dating, Aegean chronology and Mediterranean cultural interrelations, Journal of Mediterranean Archaeology 1(1): 1782.Google Scholar
Manning, S.W. 1990. The Thera eruption: the Third Congress and the problem of the date, Archaeometry 32: 91100.Google Scholar
Manning, S.W. 1999. A test of time: The volcano of Thera and the chronology and history of the Aegean and east Mediterranean in the mid second millennium BC. Oxford: Oxbow Books.Google Scholar
Manning, S.W., Kromer, B., Kuniholm, P.I. & Newton, M.W. 2001. Anatolian tree-rings and a new chronology for the east Mediterranean Bronze-Iron Ages, Science 294: 2532—5.CrossRefGoogle Scholar
Manning, S.W., Sewell, D.A. & Herscher, E. In press. Late Cypriot IA maritime trade in action: underwater survey at Maroni-Tsaroukkas and the contemporary east Mediterranean trading system, Annual of the British School at Athens 96.Google Scholar
Marketou, T., Facorellis, Y. & Maniatis, Y. 2001. New Late Bronze Age chronology from the Ialysos region, Rhodes, Mediterranean Archaeology and Archaeometry 1:1929.Google Scholar
MatthÄus, H. 1995. Representations of Keftiu in Egyptian tombs and the absolute chronology of the Aegean Late Bronze Age, Bulletin of the Institute of Classical Studies 40:177–94.CrossRefGoogle Scholar
Stuiver, M. & Braziunas, T.F. 1993. Sun, ocean, climate and atmospheric 14CO2: an evaluation of causal and spectral relationships, The Holocene 3: 289305.Google Scholar
Stuiver, M. & Braziunas, T.F. 1998. Anthropogenic and solar components of hemispheric 14C, Geophysical Research Letters 25: 329–32.CrossRefGoogle Scholar
Stutver, M., Reimer, P.J., Bard, E.. Beck, J.W., Burr, G.S., Huchen, K.A., Kromer, B., Mccormac, G., Plight, J. VAN DER & Splrk, M. 1998a. INTCAL98 radiocarbon age calibration, 24,000-0 cal BP, Radiocarbon 40: 1041–83.Google Scholar
Stuiver, M., Reimer, P.J. & Braziunas, T.F. íooab. High-precision radiocarbon age calibration for terrestrial and marine samples, Radiocarbon 40: 1127–51.Google Scholar
Warren, P. 1984. Absolute dating of the Bronze Age eruption of Thera (Santorini), Nature 308: 492–3.Google Scholar
Warren, P. 1985. Minoan pottery from Egyptian sites, Classical Review 35: 147–51.Google Scholar
Warren, P. 1987. Absolute dating of the Aegean Late Bronze Age, Archaeometry 29: 205–11.Google Scholar
Warren, P. 1998. Aegean Late Bronze 1-2 absolute chronology — some new contributions, in Balmuth, M.S. & Tykot, R.H. (ed.), Sardinian and Aegean chronology: towards the resolution of relative and absolute dating in the Mediterranean: 323–31 Oxford: Oxbow Books.Google Scholar
Warren, P. 1999. LM TA: Knossos, Thera, Gournia, in Betancourt, P.P., Karageorghis, V., Laffineur, R. & Niemeier, W.-D. (ed.), Meletemata: studies in Aegean archaeology presented to Malcolm H. Wiener as he enters his 65th year: 893903. Liège: Université de Liège. Histoire de l'art et archéologie de la Grèce antique.Google Scholar
Warren, P. & Hankey, V. 1989. Aegean Bronze Age chronology. Bristol: Bristol Classical Press.Google Scholar
Wiener, M.H. 2001. The White Slip I of Tell el-Dab a and Thera: critical challenge for the Aegean long chronology, in Karageorghis (ed): 195202.Google Scholar