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Flake production at the Lower Palaeolithic site of Holon (Israel): implications for the origin of the Levallois method

Published online by Cambridge University Press:  02 January 2015

Michael Chazan*
Affiliation:
Department of Anthropology, University of Toronto, 100 St George Street, Toronto ONT, Canada M5S 1A1. mchazan@chass.utoronto.ca

Extract

The analysis of flake production at the late Lower Palaeolithic site of Holon (Israel) suggests that the introduction of the Levallois method was an abrupt event related to a shift in the design of tools.

Type
News & notes
Copyright
Copyright © Antiquity Publications Ltd. 2000

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References

Boëda, E. 1991. Approche de la variabilité des systèmes de production lithique des industries du paléolithique inférieure et moyen: chronique d’une variabilité attendue, Technique et culture 17–18: 3179.Google Scholar
Boëda, E. 1995. Levallois: A volumetric construction, methods, a technique, in Dibble, & Bar-Yosef, (ed.): 4168.Google Scholar
Boëda, E. 1997. Technogenèse de systèmes de production lithique au Paléolithique inférieur et moyen en Europe occidentale et au Proche-Orient. Habilitation thesis, Université de Paris X-Nanterre.Google Scholar
Bordes, F. 1961. Typologie du Paléolithique Ancien et Moyen. Paris: Presses CNRS.Google Scholar
Chazan, M. 1997. Redefining Levallois, Journal of Human Evolution 33: 71935.Google Scholar
Chazan, M. In press. Typological analysis of the Lower Paleolithic site of Holon, Israel, Mitekufat Haeven: Journal of the lsrael Prehistoric Society.Google Scholar
Dibble, H. 1995. Biache-Saint-Vaast, Level lia: A comparison of approaches, in Dibble, & Bar-Yosef, : 93116.Google Scholar
Dibble, H.L. & Bar-Yosef, O. (ed.). 1995. The definition and interpretation of Levallois technology. Madison (WI): Prehistory Press.Google Scholar
Geneste, J.M. 1985. Analyse lithique d’industries mousteriennes du Périgord. Ph.D dissertation, University of Bordeaux I.Google Scholar
Goren-Inbar, N. & Belfer-Cohen, A.. 1998. The technological abilities of the Levantine Mousterians: Cultural and mental capacities, in Akazawa, T. Aoki, K. & Bar Yosef, O.. (ed.), Neanderthals and modern humans in Western Asia: 20522. New York (NY): Plenum.Google Scholar
Gvirtzman, G., Shachnai, E. Bakler, N. & Ilani, S.. 1984. Stratigraphy of the Kurkar Group (Quaternary) of the Coastal Plain of Israel, GSI Current Research 1983–1984: 7082.Google Scholar
Kolodny, Y. 1967. Lithostratigraphy of the Mishash Formation, Northern Negev, Israel Journal of Earth Sciences 16: 5773.Google Scholar
Mercier, N., Valladas, H. Valladas, G. & Reyss, J.-L.. 1995. TL dates of burned flint from Jelinek’s excavations at Tabun and their implications, Journal of Archaeological Science 22: 495509.Google Scholar
Perpère, M. (1986). Apport de la typométrie à la définition des éclats Levallois, Bulletin de la Société Préhistorique Française 83: 11518.Google Scholar
Porat, N., Zhou, L.P. Chazan, M. Noy, T. & Horwitz, L.K.. 1999. Lower Paleolithic open-air site of Holon, Israel — luminescence and ESR dates, Quaternary Reserch 51: 32841.Google Scholar
Yizraeli, T. 1967. A lower Paleolithic site at Holon, Israel Exploration Journal 17: 14452.Google Scholar