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Drought and the decline of Mycenae

Published online by Cambridge University Press:  02 January 2015

Abstract

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Articles
Copyright
Copyright © Antiquity Publications Ltd 1974

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References

Baerreis, D. A., and Bryson, R. A. (eds.). 1967. Climatic change and the Mill Creek Culture of Iowa, Archives Archaeology, Society of American Archaeologists, XXIX, 1673.Google Scholar
Bell, B. 1971. The dark ages in ancient history: 1. The first dark age in Egypt, AJA, LXXV, 126.Google Scholar
Brooks, C. E. P. 1926. Climate through the ages (London).Google Scholar
Bryson, R. A., Baerreis, D. A. and Wendland, W. M.. 1970. The character of Late- and Post-glacial climatic changes, in (eds.) Dort, W. Jr. and Jones, J. K. Jr, Pleistocene and recent environments of the central Great Plains (Lawrence, Kansas).Google Scholar
Carpenter, R. 1966. Discontinuity in Greek civilization (Cambridge).Google Scholar
Donley, D. L. 1971. Analysis of the winter climatic pattern at the time of the Mycenaean decline (PhD thesis, University of Wisconsin).Google Scholar
Gurney, O. R. 1952. The Hittites (Harmondsworth).Google Scholar
Kasser, P. 1967. Fluctuations of glaciers 1959–1965 (unesco, International Association of Scientific Hydrology, Commission of Snow and Ice).Google Scholar
Kutzbach, J. E. 1967. Empirical eigenvectors of sea- level pressure, surface temperature and precipitation complexes over North America, Journal of Applied Meteorology, VI, 791802.Google Scholar
Lamb, H. H. 1964. Trees and climatic history in Scotland: a radiocarbon dating test and other evidence, Quarterly Journal of the Royal Meteorological Society, XC, 38294.Google Scholar
Lamb, H. H. 1967. Review of Rhys Carpenter, Discontinuity in Greek civilization, Antiquity, XLI, 2334.Google Scholar
Lamb, H. H. 1968a. On the nature of certain epochs which differed from the modern (1900–1939) normal, in (ed.) Lamb, H. H., The changing climate (London), 58112.Google Scholar
Lamb, H. H. 1968b. The climatic background to the birth of civilization, Advancement of Science, XXV, 10320.Google Scholar
Lorenz, E. N. 1956. Empirical orthogonal functions and statistical weather prediction (MIT Dept. of Meteorology, Contract AF 19(604)-1566, Sci. Rept. No. 1).Google Scholar
Palmer, W. C. 1965. Meteorological drought (Washington, DC, US Dept. of Commerce, Weather Bureau Research Paper No. 245).Google Scholar
Peake, H. 1922. The bronze age and the Celtic world (London).Google Scholar
Schwarzbach, M. 1963. Climates of the past (ed. and trans.) Muir, R. O. (London).Google Scholar
Starkel, L. 1966. Post-glacial climate and the moulding of European relief, in (ed.) Sawyer, J. S., World climate from 8000 to o BC (London), 1533.Google Scholar
Stuiver, M. and Suess, H. E., 1966. On the relationship between radiocarbon dates and true sample ages, Radiocarbon, 8, 534.Google Scholar
Vogel, J. C. 1970. Groningen radiocarbon dates IX, Radiocarbon, 12, 44471.Google Scholar
Wendland, W. M., and Donley, D. L., 1971. Radiocarbon-calendar age relationship, Earth and Planetary Science Letters, XI, 1359.CrossRefGoogle Scholar
Wright, H. E. Jr. 1968. Climatic change in Mycenaean Greece, Antiquity, XLII, 123—7.Google Scholar