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Accelerator radiocarbon dating of the initial Upper Palaeolithic in southeast Siberia

Published online by Cambridge University Press:  02 January 2015

Ted Goebel
Affiliation:
Department of Sociology & Anthropology, Southern Oregon State College, Ashland OR 97520, USA
Mikhail Aksenov
Affiliation:
Department of Archaeology & Ethnography, Irkutsk State University, 1 K. Marx Street, Irkutsk 664003, Russia

Extract

Across Eurasia and Africa new studies are encouraging archaeologists to rethink the age of of the Middle to Upper Palaeolithic transition. In the Lake Baikal region of southeast Siberia, new radiocarbon determinations on sites of difficult history suggest that the earliest Upper Palaeolithic emerged there as early as 39,000 years ago, 6000 years earlier than previously thought.

Type
Papers
Copyright
Copyright © Antiquity Publications Ltd. 1995

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References

Aksenov, M.P. 1978. Issledovaniia Paleoliticheskogo pamiatnika Makarovo IV na verkhnei Lene, in Arkheologicheskie Otkrytiia 1977 Goda: 204. Moscow: Nauka.Google Scholar
Aksenov, M.P. 1989a. Paleolit i Mezolit Verkhnei Leny. Dissertation for Degree of Doctor of Historical Sciences, Institute of History, Philosophy, and Philology, Siberian Branch, Soviet Academy of Sciences, Novosibirsk.Google Scholar
Aksenov, M.P. 1989b. Paleolit i Mezolit Verkhnei Leny: Aftoreferat. Novosibirsk: Nauka.Google Scholar
Aksenov, M.P. 1990. Paleoekologiia drevnego cheloveka verkhnei Leny, in Khronostratigrafiia Paleolita Severnoi, Tsentral’noi, i Vostochnoi Azii i Ameriki (Doklady Mezhdunarodnogo Simpoziuma): 710. Novosibirsk: Nauka.Google Scholar
Aksenov, M.P. & Naidentskaia, I.S. 1979. K voprosu o stratigraficheskoi i planimetricheskoi situatsii na Makarovo IV, in Otchetnaia Nauchno-Teoreticheskaia Konferentsiia Arkheologiia Etnografiia Istochniko-vedenie: 74–5. Irkutsk: Irkutskii Gosudarstvennyi Universitet.Google Scholar
Aksenov, M.P. Berdnikov, M.A. Medvedev, G.I. Perzhakov, O.N. & Fedorenko, A.B. 1987. Morfologüa i arkheologicheskii vozrast kamennogo inventarla ‘Makarovoskogo Paleoliticheskogo Plasta ,’ in Prohlemy Antropologa i Arkheologii Kamennogo Veka Evrazii: 248. Irkutsk: Irkutskii Gosudarstvennyi Universitet.Google Scholar
Bar-Yosef, O., Vandermeersch, B. Arensburg, B. Belfer-Cqhen, A. Goldberg, P. Laville, H. Meignen, L. Rak, Y. Speth, J.D. Tchernov, E. Tillier, A-M. & Weiner, S. 1992. The excavations in Kebara Cave, Mt.Carmel, Current Anthropology 33: 497550.CrossRefGoogle Scholar
Bazarov, D.D.B. 1968. Chetvertichnye Otlozheniia i Osnovnye Etapy Razvitiia Rel‘efa Selenginskogo Srednegor‘ia. Ulan-Ude: Buriatskoe Knizhnoe Izdatel‘stvo.Google Scholar
Bazarov, D.D.B., Konstantinov, M.V. Imetkhenov, A.B. Bazarova, L.D. & Savinova, V.V. 1982. Geologiia i Kul‘tura Drevnikh Posehnii Zapadnogo Zabaikal‘ia. Novosibirsk: Nauka.Google Scholar
Binford, L.R. 1989. Isolating the transition to cultural adaptations: an organizational approach, in E. Trinkaus (ed.), The emergence of modern humans: biocultural adaptations in the Later Pleistocene: 1841. Cambridge: Cambridge University Press.Google Scholar
Bischoff, J.L., Soler, N. Maroto, J. & Julia, R. 1989. Abrupt Mousterian/Aurignacian boundary at c. 40 ka b.p.: acclerator 14C dates from L’Arbreda Cave (Catalunya, Spain), Journal of Archaeological Science 16: 573–6.Google Scholar
Gamble, C. 1986. The Palaeolithic settlement of Europe. Cambridge: Cambridge University Press.Google Scholar
Goebel, T. 1993. The Middle to Upper Paleolithic Transition in Siberia, Dissertation for Degree of Doctor of Philosophy, University of Alaska. Fairbanks (AK). Google Scholar
Goebel, T., Derevianko, A.P. & Petrin, V.T. 1993. Dating the Middle-to-Upper-Paleolithic transition at Kara-Bom, Current Anthropology 34 (4): 452–8.CrossRefGoogle Scholar
Hedges, R.E.M., Housley, R.A. Law, I.A. & Bronk, C.R. 1990. Radiocarbon dates from the Oxford AMS system: Archaeometry dateiist 10, Archaeometry 32 101–8.Google Scholar
Juli, A.J.T., Donahue, D.J. & Zabel, T.H. 1983. Target preparation for radiocarbon dating by tandem accelerator mass spectrometry, Nuclear Instruments and Methods in Physics Research 218: 509–14.Google Scholar
Kind, N.V. 1974. Geokhronologiia Pozdnego Antropogena po Izotopnym Danny. Moscow: Geologicheskii Institut, Trudy 257.Google Scholar
Kirillov, I.I. 1987. Tolbaginskaia Paleoliticheskaia kul’tura Zabaikal’ia i ee korreliatsiia s kul’turami sopredel’nykh territorii, in Drevnosti Sibiri i Dal’nego Vostoka: 6873. Novosibirsk: Nauka.Google Scholar
Klein, R.G. 1992. The archeology of modern human origins, Evolutionary Anthropology 1: 514.Google Scholar
Knecht, H., Pike-Tay, A. & White, R. 1993. Introduction, in Knecht, H., Pike-Tay, A. & White, R. (eds.), Before Lascaux: The complex record of the early Upper Paleolithic: 15. Boca Raton (FL): CRC Press.Google Scholar
Lbova, L.V. 1992. Brianskii Paleoliticheskii kompleks (k obosnovaniiu arkheologicheskogo raiona), in Paleo-ekologiia i Rasselenie Drevnego Cheloveka ? Severnoi Azii i Amerike: 162–4. Krasnoyarsk: Nauka.Google Scholar
Long, A., Wilson, A.T. Ernst, R.D. & Gore, B.H. 1989. AMS radiocarbon dating of bones at Arizona, Radiocarbon 31: 231–8.Google Scholar
Medvedev, G.I. Savel’Ev, N.A. & Svinin, V.V. 1990. Stratigrafia, Paleogeografía, i Arkheologiia luga Srednei Sibiri: ? XIII Kongressu INQUA 1990. 15. Irkutsk: Nauka.Google Scholar
Mellars, P. 1989a. Major issues in the emergence of modem humans, Current Anthropology 30: 349–85.Google Scholar
Mellars, P. 1989b. Technological changes at the Middle-Upper Palaeolithic transition: economic, social and cognitive perspectives, in Mellars, P. Stringer, C. (ed.), The human evolution: behavioural and biological perspectives on the origins of modern humans: 338–65.Princeton (NJ): Princeton University Press.Google Scholar
Meliars, P. 1993. Archaeology and the population–dispersal hypothesis of modern human origins in Europe, in Aitkcn, M.J. Stringer, C.B. & Mellars, P.A. (ed.) The origin of modern humans and the impact of Chronometrie dating: 196216. Princeton (NJ): Princeton University Press.Google Scholar
Mellars, P.A., Bricker, H.M. Gowlett, J.A.J. & Hedges, R.E.M. 1987. Radiocarbon accelerator dating of French Upper Palaeolithic sites, Current Anthropology 28 (1): 128–33.Google Scholar
Okladnikov, A.P. 1974. Varvarina Gora-novyi pamiatnik Levalluazskogo etapa Paleolita za Baikalom, in Arkheologicheskie Otkrytiia 1973 Coda: 215–16. Moscow: Nauka.Google Scholar
Okladnikov, A.P. Kirillov, I.I. 1980. Iugo-Vostochnoe Zabaikal’e v Epokhu Kamnia i Rannei Bronzy. Novosibirsk: Nauka.Google Scholar
Ovodov, N.D. 1987. Fauna Paleoliticheskikh poselenii Tolbaga i Varvarina Gora ? zapadnom Zabaikal’e, in Prirodnaia Sreda i Drevnii Chelovek v Pozdnem Antropogene.122–40. UlanUde: Nauka.Google Scholar
Straus, L.G., & Heller, C.W. 1988. Explorations of the twilight zone: the early Upper Paleolithic of Vasco–Cantabrian Spain, in Hoffecker, J.F. & Wolf, CA. (ed.) The early Upper Paleolithic: evidence from Europe and the Near East: 97134. Oxford. British Archaeological Reports.International series S437.Google Scholar
Tseitlin, S.M. 1979. Geologiia Paleolita Severnoi Azii. Moscow: Nauka.Google Scholar
Valdes, VC, & Bischoff, J.L. 1989. Accelerator 14C dates for early Upper Paleolithic (basal Aurignacian) at El Castillo Cave (Spain), Journal of Archaeological Science 16: 577–84.Google Scholar
Vorob’Eva, G.A. 1987. Stroenie razreza otlozhenyi na Paleoliticheskom mestonakhozhdenii Makarovo–IV, in Problemy Antropologa i Arkheologii Kamennogo Veka Evrazii: Irkutsk: Irkutskii Gosudarstvennyi Universitet.Google Scholar
White, R. 1982. Rethinking the Middle/Upper Paleolithic transition, Current Anthropology 23 16992.Google Scholar