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The Climate, Environment and Industries of Stone Age Greece: Part III

Published online by Cambridge University Press:  27 May 2014

E. S. Higgs ,
C. Vita-Finzi ,
D. R. Harris ,
A. E. Fagg  and
S. Bottema
E. S. Higgs
Affiliation:
Department of Archaeology & Anthropology, Cambridge
C. Vita-Finzi
Affiliation:
Department of Geography, University College London
D. R. Harris
Affiliation:
Department of Geography, University College London
A. E. Fagg
Affiliation:
Department of Archaeology & Anthropology, Cambridge
S. Bottema
Affiliation:
Institute for Biological Archaeology, State University, Groningen
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Extract

In the second article of this series, brief mention was made of a cave at Kastritsa, near Lake Ioannina, whose talus had yielded an industry reminiscent of the last phase at the shelter of Asprochaliko. The evidence for an increase in the size of Lake Ioannina during the Last Glaciation was also outlined. The purpose of this paper is to consider the concomitant environmental changes in relation to the evidence for human occupation.

Lake Ioannina lies at 469 metres above sea-level. To the north-east stands the Mitsikeli ridge, with a maximum elevation of 1,810 metres and separated from the Pindus range by the gorge of the upper Arakhthos (fig. 1). To the south-west lies the Tomarokhoria plateau, which in places rises to over 1,900 metres. The basin, a typical polje, is cradled by limestones which range in age from the Upper Triassic to the Upper Eocene. The Flysch of the Pindus borders it on the south-east. The lake lies along the axis of the Perama syncline, which runs north-west-south-east parallel to the Mitsikeli anticline and the Stavraki anticline; faulting is common. The basin would seem to owe its existence primarily to structural factors, although solution doubtless contributed to its present form.

Type
Research Article
Information
Proceedings of the Prehistoric Society , Volume 33 , February 1968 , pp. 1 - 29
Copyright
Copyright © The Prehistoric Society 1968

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References

REFERENCES

Dakaris, S. I., Higgs, E. S. and Hey, R. W., 1964. ‘The Climate, Environment and Industries of Stone Age Greece: Part I,’ PPS, XXX, 199245.Google Scholar
Hammen, T. van der, Wijmstra, T. A. and Molen, W. H. van der, 1965. ‘Palynological study of a very thick peat section in Greece and the Würm-glacial vegetation in the Mediterranean region’, Geologie en Mijnbouw, N.S. 44, 3740.Google Scholar
Higgs, E. S. and Vita-Finzi, C., 1966. ‘The Climate, Environment and Industries of Stone Age Greece: Part II’, PPS, XXXII, 130.Google Scholar
Rodden, R. J., 1962 (with contributions by Dimbleby, G. W., Western, A. C., Willis, E. H., Higgs, E. S. and Clench, W. J.). ‘Excavations at the Early Neolithic Site at Nea Nikomedeia, Greek Macedonia’, PPS, XXVIII, 267–89.Google Scholar
Rodden, R. J. and Rodden, J. M., 1964. ‘A European Link with Chatal Hüyük: The 7th Millennium Settlement of Nea Nikomedeia in Macedonia. Part I and II’, The Illustrated London News, Archaeological Section no. 2180, 564–67 and 604–07.Google Scholar
Sercelj, A., 1966. ‘Pelodne Analize Pleistocenskih in Holocenskih Sedimentov Ljubljanskega Barja’, Razprave-Dissertationes, IX/9, Ljubljana.Google Scholar