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Palaeogeographic reconstruction of the Heraion–Vouliagmeni Lake coast since Early Helladic times1

Published online by Cambridge University Press:  27 September 2013

S. C. Stiros
S. C. Stiros
Affiliation:
Institute of Geology and Mineral Exploitation (IGME), Athens
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Abstract

The morphology of the Vouliagmeni Lake and Perachora coasts is the result of seismic uplifts with a cumulative amplitude of 3–4 m in the last 6,000 years; there is also evidence of a transient seismic subsidence at around 5,000 BP. These results are consistent with excavation data indicating a seismic destruction of an EH I site followed by land subsidence. This led to the abandonment of the site, which was reoccupied when the land was uplifted again.

Type
Articles
Information
Annual of the British School at Athens , Volume 90 , November 1995 , pp. 17 - 21
Copyright
Copyright © The Council, British School at Athens 1995

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References

2 Stiros, S. and Papageorgiou, S., ‘Upper Holocene sea level changes and some implications for the active tectonics of central Greece’, Bulletin of the Geological Society of Greece, 23.1 (1989), 259–70.Google Scholar

3 Pirazzoli, P., Stiros, S., Arnold, M., Laborel, J., Laborel-Deguen, F., and Papageorgiou, S., ‘Episodic uplift deduced from Holocene shorelines in the Perachora peninsula (Corinth area, Greece)’, Tectonophysics, 229 (1994), 201–9.CrossRefGoogle Scholar

4 Stiros, S., Arnold, M., Pirazzoli, E., Laborel, J., Laborel, F., and Papageorgiou, S., ‘Historical coseismic uplift on Euboea Island, Greece’, Earth and Planetary Science Letters, 108 (1992), 109–17.CrossRefGoogle Scholar

5 Blackman, D., ‘The harbour at Perachora’, BSA 61 (1966), 191–4Google Scholar; Fossey, J., ‘The prehistoric settlement by Lake Vouliagmeni, Perachora’, BSA 64 (1969), 5369.Google Scholar

6 J. Fossey (n. 5); id., ‘Perachora, 1: excavation at the Early Helladic settlement by Lake Vouliagmeni’, A. Delt. B 1, 28 (1973). [1977], 149–51; id., ‘The C14 dates from Lake Vouliagmeni, Perakhora, central Greece’, Acta praehistorica et archaelogica (Berlin), 19 (1987), 31–6; id. and Morin, J., ‘The excavation of the prehistoric site by Lake Vouliagmeni at Corinthian Perachora’ (in Greek), Proceedings of the Second Local Congress of Corinthian Studies (Peloponnesiaka, supp. 12; Athens, 1986), 2134.Google Scholar

7 Some modern analogies, though not associated with seismic motions, are the barriers in Holland and at Kalochori near Thessaloniki. See Papageorgiou, S., Stiros, S., Papavasiliou, P., and Moutsoulas, M., ‘Examination of the relationship between variations of the coastal topography and inhabitation history in Macedonia and Thrace’, in Proceedings of the Second Archaeometry Symposium (Thessaloniki, 1993)Google Scholar (in press).

8 Fink, R. and Schröder, B., ‘Anzeichen eines holozänen Meereshochstandes an der Landenge von Korinth’, Neue Jahrburch für Geologie und Paläontologie, Monatshefte, 5 (1971), 265–70.Google Scholar

9 Mitzopoulos, M., ‘Le Quaternaire marin (Tyrrhénien) dans la presqu'île de Pérachora’, PAA 8 (1933), 286–92.Google Scholar IGME, 1: 50,000 geological maps, Pérachora sheet.

10 These rocks have been used extensively in antiquity, both in underground and exposed constructions, for example Glauke Krene at Corinth. At Skaloma ancient excavations in such rocks have survived.

11 Pirazzoli et al. (n. 3); Mariolakos, I. and Stiros, S., ‘Quaternary deformation of the isthmus and gulf of Corinthos (Greece)’, Geology, 15 (1987), 225–82.0.CO;2>CrossRefGoogle Scholar; Stiros, S., ‘Archaeology, a tool to study active tectonics: the Aegean as a case study’, Eos: Transactions of the American Geophysical Union, 69 (1988), 1633, 1639.CrossRefGoogle Scholar

12 Stiros, S., Marangou, L., and Arnold, M., ‘Quaternary uplift and tilting of Amorgos island (south Aegean) and the 1956 earthquake’, Earth and Planetary Science Letters, 128 (1994), 6576.CrossRefGoogle Scholar

13 Stiros (n. 11); Mariolakos and Stiros (n. 11).

14 Pirazzoli et al. (n. 3).

15 Flemming, N., ‘Holocene eustatic changes and coastal tectonics in the north-east Mediterranean: implications for models of crustal consumption’, Transactions of the Royal Society, London, A289 (1978), 405–58CrossRefGoogle Scholar; Pirazzoli, P., ‘World atlas of relative sea level changes’, Elsevier Oceanographic Series, 58 (Amsterdam, 1991)Google Scholar; Pirazzoli, P., Montaggioni, L., Saliège, J., Secongac, G., Thommeret, Y., and Vergnaud-Grazzini, C., ‘Crustal block movements from Holocene shorelines: Rhodes island’, Tectonophysics, 170 (1989), 89114.CrossRefGoogle Scholar