Hostname: page-component-78c5997874-dh8gc Total loading time: 0 Render date: 2024-11-10T06:44:23.194Z Has data issue: false hasContentIssue false

The Emergence of Pressure Knapping Microblade Technology in Northeast Asia

Published online by Cambridge University Press:  25 April 2018

Yan Axel Gómez Coutouly*
Affiliation:
Laboratory of Prehistory and Technology, Institute for Archaeology and Ethnology, Paris West University Nanterre La Défense, 21 allée de l’Université, 92023 Nanterre, France
*
*Corresponding author. Email: yanaxel@northpacificprehistory.com.

Abstract

This article is a critical review of published data from the earliest evidence of pressure knapped microblade technology from various regions in Northeast Asia (Siberia, Korea, China, Mongolia, Japan, Sakhalin, and Russian Far East), including discussions not only on published dates, but also on published artifacts (drawings and photos) relating to these assemblages. The issue concerning the geographical and chronological origin of microblade technology in Northeast Asia remains a widely debated concern, not only as new data emerge, but also due to researchers having different definitions of the term “microblade” and “microblade core”. In this case, by microblade technology, I refer to the systematic production of microblades using the pressure knapping technique. I therefore review the data in light of this defining feature and conclude that, based on the present state of research, pressure knapping microblade technology probably emerged in the Far East (China, Korea, or Japan) around 30,000–25,000 cal BP, in spite of most authors considering that microblade technology emerged in southern Siberia 40,000–35,000 years ago. In the discussion section, I argue about the potential role of obsidian in the emergence of pressure knapped microblade technology.

Type
Research Article
Copyright
© 2018 by the Arizona Board of Regents on behalf of the University of Arizona 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Abramova, ZA, Astakhov, SN, Vasil’ev, SA, Lisitsyn, NF, Ermolova, NM. 1991. Paleolit Yeniseya [The Paleolithic of the Yenisei River]. Leningrad: Nauka.Google Scholar
Akazawa, T, Oda, S, Yamanaka, I, Nakatsu, Y. 1980. Nihon no Kyusekki. Giyutsu Keishikigatu teki Bunseki [The Japanese Paleolithic: A Techno-Typological Study]. Tokyo: Rippū Shobō.Google Scholar
Bae, K. 2002. Radiocarbon dates from Paleolithic sites in Korea. Radiocarbon 44(2):473476.CrossRefGoogle Scholar
Bae, K. 2010. Origin and Patterns of the Upper Paleolithic Industries in the Korean Peninsula and Movement of Modern Humans in East Asia. Quaternary International 211:103112, doi: 10.1016/j.quaint.2009.06.011.CrossRefGoogle Scholar
Bahn, PG. editor. 2001. The Penguin Archaeology Guide. London: Penguin Books.Google Scholar
Binder, D. 1984. Systèmes de débitage laminaire par pression: exemples chasséens provençaux. In: Tixier J, Inizan M-L, Roche H, editors. Préhistoire de la pierre taillée. 2, Economie du débitage laminaire. Paris: CREP. p. 7184.Google Scholar
Binder, D, Balkan-Atlı, N. 2001. Obsidian exploitation and blade technology at Kömürcü-Kaletepe (Cappadocia, Turkey). In: Caneva I, Lemorini C, Zampetti D, Biagi P, editors. Beyond Tools: Redefining the PPN Lithic Assemblages of the Levant. Berlin: Ex oriente. p. 116, [accessed 2017 Jun 29] https://www.researchgate.net/profile/Didier_Binder/publication/260087222_Obsidian_exploitation_and_blade_technology_at_Komurcu-Kaletepe_Central_Anatolia/links/00b7d53940d4cb31e2000000/Obsidian-exploitation-and-blade-technology-at-Koemuercue-Kaletepe-Central-Anatolia.pdf.Google Scholar
Bordes, J-G, Lenoble, A. 2002. La “lamelle Caminade”: un nouvel outil lithique aurignacien? Bulletin Société Préhistorique Française 99:735749.CrossRefGoogle Scholar
Boriskovskii, PI. editor. 1984. Paleolit SSSR [Paleolithic of the USSR]. Moscow: Nauka.Google Scholar
Brantingham, PJ, Krivoshapkin, A, Jinzeng, L, Tserendagva, Y. 2001. The Initial Upper Paleolithic in Northeast Asia. Current Anthropology 42:735746, doi: 10.1086/323817.CrossRefGoogle Scholar
Bronk Ramsey, C. 2009. Bayesian analysis of radiocarbon dates. Radiocarbon 51(1):337360.CrossRefGoogle Scholar
Brunet, F. 2002. Asie centrale: vers une redéfinition des complexes culturels de la fin du Pléistocène et des débuts de l’Holocène. Paléorient 28:924.CrossRefGoogle Scholar
Buvit, I. 2008. Geoarchaeological Investigations in the Southwestern Transbaikal Region, Russia. [Washington]: Washington State University. [accessed 2017 Jul 4]. http://search.proquest.com/openview/d97d0c814548704f1b7cfffed6fd564e/1?pq-origsite=gscholar&cbl=18750&diss=y.Google Scholar
Buvit, I, Izuho, M, Terry, K, Konstantinov, MV, Konstantinov, AV. 2016. Radiocarbon dates, microblades and Late Pleistocene human migrations in the Transbaikal, Russia and the Paleo-Sakhalin-Hokkaido-Kuril Peninsula. Quaternary International 425:100119, doi: 10.1016/j.quaint.2016.02.050.CrossRefGoogle Scholar
Callahan, E. 1985. Experiments with Danish Mesolithic microblade technology. Journal of Danish Archaeology 4:2339.CrossRefGoogle Scholar
Chang, Y. 2013. Human activity and lithic technology between Korea and Japan from MIS 3 to MIS 2 in the Late Paleolithic Period. Quaternary International 308–309:1326, doi: 10.1016/j.quaint.2012.09.002.CrossRefGoogle Scholar
Chen, C. 1992. A Comparison of Microblade Cores from East Asia and Northwestern North America: Tracing Prehistoric Cultural Relationships. Montreal: McGill University.Google Scholar
Chen, C. 2007. Techno-typological comparison of microblade cores from East Asia. In: Kuzmin YV, Keates Susan G, Chen S, editors. Origin and Spread of Microblade Technology in Northern Asia and North America. Burnaby (BC): Archaeology Press, Simon Fraser University. p. 738.Google Scholar
Chen, C, Wang, X-Q. 1989. Upper Paleolithic microblade industries in North China and their relationships with Northeast Asia and North America. Arctic Anthropology 26:127156.Google Scholar
Clark, PU, Dyke, AS, Shakun, JD, Carlson, AE, Clark, J, Wohlfarth, B, Mitrovica, JX, Hostetler, SW, McCabe, AM. 2009. The Last Glacial Maximum. Science 325:710714, doi: 10.1126/science.1172873.CrossRefGoogle ScholarPubMed
Crabtree, DE. 1968. Mesoamerican Polyhedral Cores and Prismatic Blades. American Antiquity 33:446478.CrossRefGoogle Scholar
Darvill, T. 2002. Concise Oxford Dictionary of Archaeology. Oxford: Oxford University Press. [accessed 2017 Jun 28]. https://books.google.fr/books?hl=fr&lr=&id=gzEclkBq0u0C&oi=fnd&pg=PT132&dq=darvill++concise+oxford&ots=g-ND23H2AS&sig=5JYLnJjLb9XOJrXKfIcJlzyJO28.Google Scholar
Derev’anko, AP, Markin, S. 1998. The Paleolithic of the Altai. In: Derev’anko AP, editor. The Palaeolithic of Siberia: New Discoveries and Interpretations. Urbana: University of Illinois Press. p 7984.Google Scholar
Derevianko, AP. 1996. Late Pleistocene Sites in the Selemdga River Basin. In: West FH, editor. American Beginnings: The Prehistory and Palaeoecology of Beringia. Chicago: Chicago University Press. p 282289.Google Scholar
Derevianko, AP. 2001. The Middle to Upper Paleolithic Transition in the Altai (Mongolia and Siberia). Archaeology Ethnology and Anthropology of Eurasia 2:70103.Google Scholar
Derevianko, AP, Agadjanyan, AK, Baryshnikov, GF, Dergacheva, MI, Dupal, TA, Malaeva, EM, Markin, SV, Molodin, VI, Nikolaev, SV, Orlova, LA, et al. 1998. Arkheologiya, geologiya i paleogeografiya pleistotsena i golotsena Gornogo Altaya [Archaeology, geology, and the Pleistocene and Holocene palaeogeography of the Mountainous Altai]. Novosibirsk: Izdatelstvo Instituta Arkheologii i Etnografii Sibirskogo Otdeleniya Rossiiskoi Akademii Nauk.Google Scholar
Derevianko, AP, Brantingham, PJ, Olsen, JW, Tseveendorj, D. 2004. Initial Upper Paleolithic blade industries from the north-central Gobi Desert, Mongolia. In: Brantingham PJ, Kuhn SL, Kerry KW, editors. The Early Upper Paleolithic Beyond Western Europe. Berkeley: University of California Press. p 207222, [accessed 2017 Jun 29]. https://arizona.pure.elsevier.com/en/publications/initial-upper-paleolithic-blade-industries-from-the-north-central.Google Scholar
Derevianko, AP, Gladyshev, SA, Olsen, JW, Petrin, VT, Tserendagva, Y. 2001. Characteristic Features of the Chikhen Agui Lithic Assemblage (Gobi Altai). Archaeology Ethnology and Anthropology of Eurasia 1:2539, doi: 10.1016/j.aeae.2015.11.004.Google Scholar
Derevianko, AP, Grichan, YV, Dergacheva, MI, Zenin, AN, Lauhin, SA, Levkovskaya, GM, Maloletko, AM, Markin, SV, Molodin, VI, Ovodov, ND, et al. 1990. Arheologiya i paleoekologiya paleolita Gornogo Altaya [Archaeology and Paleoecology of Gorny Altay]. Novosibirsk: IAET.Google Scholar
Derevianko, AP, Kononenko, NA. 2003. Foraging Population of the Sea of Japan During the Late Pleistocene–Early Holocene. Novosibirsk: Institute of Archaeology and Ethnography Press.Google Scholar
Derevianko, AP, Markin, S, Gladyshev, SA, Olsen, JW. 2015. The Early Upper Paleolithic of the Gobi Altai Region in Mongolia (Based on Materials from the Chikhen-2 Site). Archaeology Ethnology and Anthropology of Eurasia 43:1741, doi: 10.1016/j.aeae.2015.11.004.CrossRefGoogle Scholar
Derevianko, AP, Olsen, JW, Tseveendorj, D, Gladyshev, SA, Nokhrina, TI, Tabarev, AV. 2008. New Insights into the Archaeological Record at Chikhen Agui Rockshelter (Mongolia). Archaeology Ethnology and Anthropology of Eurasia 34:212, doi: 10.1016/j.aeae.2008.07.001.CrossRefGoogle Scholar
Derevianko, AP, Postnov, AV, Rybin, EP, Kuzmin, YV, Keates, SG. 2005. The Pleistocene peopling of Siberia: a review of environmental and behavioural aspects. Indo-Pacific Prehistory Association Bulletin 25:5768.Google Scholar
Derevianko, AP, Rybin, EP, Gladyshev, SA, Gunchinsuren, B, Tsybankov, AA, Olsen, JW. 2013. Early Upper Paleolithic Stone Tool Technologies of Northern Mongolia: the Case of Tolbor-4 and Tolbor-15. Archaeology Ethnology and Anthropology of Eurasia 41:2137, doi: 10.1016/j.aeae.2014.07.004.CrossRefGoogle Scholar
Derevianko, AP, Shunkov, MV. 2004. Formation of the Upper Paleolithic traditions in the Altai. Archaeology Ethnology and Anthropology of Eurasia 5:1240.Google Scholar
Derevianko, AP, Shunkov, MV, Agadjanian, AK, Baryshnikov, GF, Malaeva, EM, Ulianov, VA, Kulik, NA, Postnov, AV, Anoikin, AA. 2003. Prirodnaya sreda i chelovek v paleolite Gornogo Altaya. Novosibirsk: IAET SO RAN.Google Scholar
Derevianko, AP, Tabarev, AV. 2006. Palaeolithic of the Primorye (Maritime) Province. In: Nelson SM, Derevianko AP, Kuzmin YV, Bland RL, editors. Archaelogy of the Russian Far East: Eassays in Stone Age Prehistory. Oxford: Archaeopress. (BAR International series 1540). p 41–54. [accessed 2017 Jun 29]. http://dspx.igm.nsc.ru/jspui/handle/IGM/5891.Google Scholar
Derevianko, AP, Volkov, PV. 2004. Evolution of Lithic reduction technology in the course of the Middle to Upper Paleolithic Transition in the Altai Mountains. Archaeology Ethnology and Anthropology of Eurasia 5:2135.Google Scholar
Derevianko, AP, Zenin, VN. 1990. Paleoliticheskoe mestonakhojdenie Anuii-I [Paleolithic study of Anui-I]. In: Vasil’evskii RS, Kholjuchkin YP, editors. Komplekshye issledovaniaya paleoliticheskih obhektov basseyia r. Anuii. Novosibirsk: Russian Academy of Sciences, Siberian Division, Institute of Archaeology and Ethnography. p. 3142.Google Scholar
Derevianko, AP, Zenin, VN. 1995. Paleolit Selemdzhi (po materialam Stojanok Ust’-Ul’ma I-III) [Paleolithic of the Selemdja (based on the materials of Ust’Ulma I-III)]. Novosibirsk: Russian Academy of Sciences, Siberian Division, Institute of Archaeology and Ethnography.Google Scholar
Desrosiers, PM, Sørensen, M. 2012. Eastern Arctic under pressure: from Paleoeskimo to Inuit culture (Canada and Greenland). In: Desrosiers P, editor. The Emergence of Pressure Blade Making. Québec: Springer. p 375400, [accessed 2017 Jun 29]. http://link.springer.com/chapter/10.1007/978-1-4614-2003-3_15.CrossRefGoogle Scholar
Doelman, T, Jia, PW, Torrence, R, Popov, VK. 2014. Remains of a puzzle: the distribution of volcanic glass artifacts from sources in Northeast China and Far East Russia. Lithic Technology 39:8195, doi: 10.1179/0197726114Z.00000000035.CrossRefGoogle Scholar
Drozdov, NI, Artem’ev, EV. 1997. Novye Dostizheniia v Izuchenii Paleolita Afontovoi Gory [New Results from the Study of the Paleolithic from Afontova Gora]. Moscow: INQUA.Google Scholar
Flenniken, JJ. 1987. The Paleolithic Dyuktai Pressure Blade Technique of Siberia . Arctic Anthropology 24:117132.Google Scholar
Flenniken, JJ, Hirth, KG. 2003. Handheld prismatic blade manufacture in Mesoamerica. In: Hirth KG, editor. Mesoamerican Lithic Technology: Experimentation and Interpretation. Salt Lake City (UT): The University of Utah Press. p 98107.Google Scholar
Gai, P. 1985. Microlithic Industries in China. In: Rukang W, Olsen JW, editors. Paleoanthropology and Paleolithic Archaeology in the People’s Republic of China. New York: Academic Press. p 225241.Google Scholar
Garkovik, AV, Korotkii, AM. 2007. Some questions pertaining to the stratigraphy and dating of sites with microblade industry in Primorye. North Pacific Prehistory 1:111128.Google Scholar
Gladyshev, SA, Olsen, JW, Tabarev, AV, Jull, AJT. 2012. The Upper Paleolithic of Mongolia: recent finds and new perspectives. Quaternary International 281:3646, doi: 10.1016/j.quaint.2012.01.032.CrossRefGoogle Scholar
Gladyshev, SA, Olsen, JW, Tabarev, AV, Kuzmin, YV. 2010. Chronology and periodization of Upper Paleolithic Sites in Mongolia. Archaeology Ethnology and Anthropology of Eurasia 38:3340, doi: 10.1016/j.aeae.2010.10.003.CrossRefGoogle Scholar
Goebel, T. 2002. The “microblade adaptation” and recolonization of Siberia during the Late Upper Pleistocene. In: Eltson RG, Kuhn SL, editors. Thinking Small: Global Perspectives on Microlithization. Arlington (VA): American Anthropological Association. (Archeological Papers of the American Anthropological Association Number 12) p 117131.Google Scholar
Goebel, T. 2004. The search for a Clovis progenitor in subarctic Siberia. In: Madsen DB, editor. Entering America: Northeast Asia and Beringia before the Last Glacial Maximum. Salt Lake City (UT): The University of Utah Press. p 311356.Google Scholar
Goebel, T, Waters, MR, Buvit, I, Konstantinov, MV, Konstantinov, AV. 2000. Studenoe-2 and the origins of microblade technologies in the Transbaikal, Siberia. Antiquity 74:567575, doi: 10.1017/S0003598X00059925.CrossRefGoogle Scholar
Gómez Coutouly, YA. 2007. Rethinking the Ustinovka Complex: Lithic technology and raw material in Palaeolithic microblade industries of Primorye (Russian Far East). North Pacific Prehistory 1:65110.Google Scholar
Gómez Coutouly, YA. 2011a. Industries lithiques à composante lamellaire par pression du Nord Pacifique de la fin du Pléistocène au début de l’Holocène: de la diffusion d’une technique en Extrême-Orient au peuplement initial du Nouveau Monde. [Nanterre]: Université Paris Ouest Nanterre La Défense. [accessed 2017 Jun 28]. https://hal.archives-ouvertes.fr/tel-00796780/.Google Scholar
Gómez Coutouly, YA. 2011b. Identifying pressure flaking modes at Dyuktai Cave: a case study of the Siberian Upper Paleolithic microblade tradition. In: Goebel T, Buvit I, editors. From the Yenisei to the Yukon: Interpreting Lithic Assemblage Variability in Late Pleistocene/Early Holocene Beringia. College Station (TX): Texas A&M University Press. p 7590, [accessed 2017 Jun 29]. http://www.academia.edu/download/39747599/Gomez_Coutouly_pressure_modes_Dyuktai_Cave_2011.pdf.Google Scholar
Gómez Coutouly, YA. 2012. Pressure microblade industries in Pleistocene-Holocene interior Alaska: current data and discussions. In: Desrosiers PM, editor. The Emergence of Pressure Blade Making. Québec: Springer. p 347374, [accessed 2017 Jun 29]. http://link.springer.com/chapter/10.1007/978-1-4614-2003-3_14.CrossRefGoogle Scholar
Gómez Coutouly, YA. 2015. Anangula, a major pressure microblade site in the Aleutians (Alaska): reevaluating its lithic component. Arctic Anthropology 52:2359.CrossRefGoogle Scholar
Gómez Coutouly, YA. 2016. Migrations and interactions in Prehistoric Beringia: The evolution of Yakutian lithic technology. Antiquity 90:931, doi: 10.15184/aqy.2015.176.CrossRefGoogle Scholar
Gómez Coutouly, YA, Ponkratova, IY. 2016. The Late Pleistocene microblade component of Ushki Lake (Kamchatka, Russian Far East). PaleoAmerica 2:303331, doi: 10.1080/20555563.2016.1202722.CrossRefGoogle Scholar
Graf, KE. 2008a. Uncharted Territory: Late Pleistocene Hunter-Gatherer Dispersals in the Siberian Mammoth-Steppe. Reno (NV): University of Nevada Reno. [accessed 2017 Jun 28]. http://search.proquest.com/openview/d7d93a3d434aaccdd8deffe114d086b8/1?pq-origsite=gscholar&cbl=18750&diss=y.Google Scholar
Graf, KE. 2008b. Is It Really That Old? Dating the Siberian Upper Paleolithic site of Afontova Gora-2. Current Research Pleistocene 25:4547.Google Scholar
Graf, KE. 2009a. Modern human colonization of the Siberian Mammoth Steppe: a view from South-Central Siberia. In: Camps M, Chauhan PR, editors. Sourcebook of Paleolithic Transitions. New York: Springer. p 479501, [accessed 2017 Jun 28]. http://link.springer.com/chapter/10.1007/978-0-387-76487-0_32.CrossRefGoogle Scholar
Graf, KE. 2009b. “The Good, the Bad, and the Ugly”: evaluating the radiocarbon chronology of the Middle and Late Upper Paleolithic in the Enisei River Valley, south-central Siberia. Journal of Archaeological Science 36:694707, doi: 10.1016/j.jas.2008.10.014.CrossRefGoogle Scholar
Graf, KE. 2010. Hunter–gatherer dispersals in the Mammoth-Steppe: technological provisioning and land-use in the Enisei River Valley, South-Central Siberia. Journal of Archaeological Science 37:210223, doi: 10.1016/j.jas.2009.09.034.CrossRefGoogle Scholar
Gryba, EM. 2006. An assessment of the free hand pressure flaking technique of precontact North America. Lithic Technology 31:5777.CrossRefGoogle Scholar
Hokkaido Center for Buried Cultural Property. 1999. Kashiwadai 1 Iseki [Kashiwadai 1 Site]. Sapporo: Hokkaido Maizo Bunkazai Center (Hokkaido Archaeological Research Center. Research Reports N° 138).Google Scholar
Hong, M-Y, Kim, J-H. editors. 2008. Hopyeong-dong Paleolithic site (Namyangju, Gyeonggi Province, Korea) II. Excavation Report N°93. Seoul: Korea Land Corporation, Gyeonggi Cultural Foundation and Gijeon Institute of Cultural Properties.Google Scholar
Huang, W-W, Hou, Y-M. 1998. A Perspective on the archaeology of the Pleistocene-Holocene Transition in North China and the Qinghai-Tibetan Plateau. Quaternary International 49:117127, doi: 10.1016/S1040-6182(97)00057-8.CrossRefGoogle Scholar
Imakane Chômin Sentâ. 1991. Pirika I iseki. Jûyô bunkazai shitei kinenten - ima yomigaeru kyû sekki jidai no seikatsu dôgu [The Remains from Pirika 1 - Recent Tools from the Ancient Stone Age]. Imakane: Imakane machi kyôiku iinkai.Google Scholar
Inizan, M-L. 1991. Le débitage par pression: des choix culturels. In: Rencontres internationales d’archéologie et d’histoire d’Antibes. 11. Juan-les-Pins: Editions APDCA. p 367–77. [accessed 2017 Jun 29]. http://cat.inist.fr/?aModele=afficheN&cpsidt=6513632.Google Scholar
Inizan, M-L. 2012. Pressure Débitage in the Old World: forerunners, researchers, geopolitics–handing on the baton. In: Desrosiers PM, editor. The Emergence of Pressure Blade Making. Québec: Springer. p 1142, [accessed 2017 Jun 29]. http://link.springer.com/chapter/10.1007/978-1-4614-2003-3_2.CrossRefGoogle Scholar
Inizan, M-L, Lechevallier, M, Plumet, P. 1992. A technological marker of the penetration into North America: pressure microblade debitage, its origin in the Paleolithic of North Asia and its diffusion. In: Vandiver PB, Druzik JR, Wheeler GS, Freestone IC, editors. Material Issues in Art and Archaeology III Vol. 267. Pittsburgh (PA): Material Research Society. p 661681, [accessed 2017 Jun 29]. https://www.cambridge.org/core/journals/mrs-online-proceedings-library-archive/article/technological-marker-of-the-penetration-into-north-america-pressure-microblade-debitage-its-origin-in-the-paleolithic-of-north-asia-and-its-diffusion/E9CB02260F3355E8D43F5956C7E3718D.Google Scholar
Inizan, M-L, Reduron-Ballinger, M, Roche, H. 1999. Prehistory and Terminology of Knapped Stone. Féblot-Augustins J, translator. Nanterre: CREP.Google Scholar
Iwase, A. 2016. A functional analysis of the LGM microblade assemblage in Hokkaido, northern Japan: A Case Study of Kashiwadai 1. Quaternary International 425:140157, doi: 10.1016/j.quaint.2016.04.008.CrossRefGoogle Scholar
Izuho, M, Sato, H. 2007. Archaeological obsidian studies in Hokkaido, Japan: retrospect and prospects. Indo-Pacific Prehistory Association Bulletin 27:114121.CrossRefGoogle Scholar
Jia, PW, Doelman, T, Chen, C, Zhao, H, Lin, S, Torrence, R, Glascock, MD. 2010. Moving sources: a preliminary study of volcanic glass artifact distributions in northeast China using PXRF. Journal of Archaeological Science 37:16701677, doi: 10.1016/j.jas.2010.01.027.CrossRefGoogle Scholar
Kato, S. 2017. The Use of Lithic Raw Materials during the Upper Paleolithic in Eastern China: A Focus on Microblade Industries. Quat. Int. 442:6677, doi: 10.1016/j.quaint.2016.05.006.CrossRefGoogle Scholar
Keates, SG. 2007. Microblade technology in Siberia and neighbouring regions: an overview. In: Kuzmin YV, Keates Susan G, Chen S, editors. Origin and Spread of Microblade Technology in Northern Asia and North America. Burnaby (BC): Archaeology Press, Simon Fraser University. p 125146.Google Scholar
Kim, JC, Kim, DK, Youn, M, Yun, CC, Park, G, Woo, HJ, Hong, M-Y, Lee, GK. 2007. Pixe Provenance of Obsidian Artefacts from Paleolithic Sites in Korea. Indo-Pacific Prehistory Association Bulletin 27:122128, doi: 10.7152/bippa.v27i0.11983.CrossRefGoogle Scholar
Kim, JC, Youn, MY, Kim, IC, Park, JH, Song, YM, Kang, J, Choi, HR, Yum, JG, Liu, Y. 2004. Dating Paleosols from Paleolithic Sites in Korea. Nuclear Instruments and Methods in Physcis Research B 223:723730, doi: 10.1016/j.nimb.2004.04.134.CrossRefGoogle Scholar
Kimura, H. 2003. Blades Industry of the Mal’ta site. Archaeology Ethnology and Anthropology of Eurasia 4:1133.Google Scholar
Kobayashi, T. 1970. Microblade industries in the Japanese archipelago. Arctic Anthropology 7:3858.Google Scholar
Kononenko, NA. 2001. Ecology and cultural dynamics of archaeological sites in the Zerkalnaya River Valley at the Terminal Pleistocene–Early Holocene (The Ustinovka Complex, Russian Far East). Archaeology Ethnology and Anthropology of Eurasia 1:4059.Google Scholar
Konstantinov, AV. 2001. Drevnie Zshilischi Zabaikal’ia [Ancient Dwellings of the Zabaikal]. Novosibirsk: Nauka.Google Scholar
Kostiukevich, VV, Ivanov, IE, Nesterenko, SA. 1980. Spisok radiouglerodnykh dat laboratorii geokhimii Instituta merzlotovedeniya SO AN SSSR [A roster of radiocarbon dates of the geochemistry laboratory, Permafrost Research Institute SO AN SSSR]. Bulleten’ Kom . Po Izucheniyu Chetvertichnogo Perioda 50:193196.Google Scholar
Krupianko, AA, Tabarev, AV. 2001. Arkheologicheskie kompleksy epokhi kamnya v Vostochnom Primorye [Archaeological complexes of the Stone Age in eastern Maritime Province]. Novosibirsk: Siberian University Publ.Google Scholar
Kuwafuji, J. 1991. Tôhoku nihon no saisekki bunka no tenka [The Development of microblade culture in the Tôhoku, Japan]. (Research report of the Yamagata Regional Museum, n°12).Google Scholar
Kuzmin, YV. 1996. Palaeoecology of the Palaeolithic of the Russian Far East. In: West FH, editor. American Beginnings: The Prehistory and Palaeoecology of Beringia. Chicago: Chicago University Press. p 136146.Google Scholar
Kuzmin, YV. 2006. Palaeoenvironment and chronology. In: Nelson SM, Derevianko AP, Kuzmin YV, Bland RL, editors. Archaelogy of the Russian Far East: Eassays in Stone Age Prehistory. Oxford: Archaeopress. (BAR International series 1540) p 1340, [accessed 2017 Jun 29]. http://dspx.igm.nsc.ru/jspui/handle/IGM/5891.Google Scholar
Kuzmin, YV. 2007. Geoarchaeological aspects of the origin and spread of microblade technology in Northern and Central Asia. In: Kuzmin YV, Keates SG, Chen S, editors. Origin and Spread of Microblade Technology in Northern Asia and North America. Burnaby (BC): Archaeology Press, Simon Fraser University. p 115124, [accessed 2017 Jun 28]. http://dspx.igm.nsc.ru/jspui/handle/IGM/5116.Google Scholar
Kuzmin, YV, Glascock, MD. 2007. Two Islands in the Ocean: Prehistoric Obsidian Exchange between Sakhalin and Hokkaido, Northeast Asia. Journal of Island and Coastal Archaeology 2:99120, doi: 10.1080/15564890701273765.CrossRefGoogle Scholar
Kuzmin, YV, Orlova, LA. 1998. Radiocarbon chronology of the Siberian Paleolithic. Journal of World Prehistory 12:153.CrossRefGoogle Scholar
Kuzmin, YV, Petrov, VG, Kim, J-C. 2005. Timing of the origin of microblade technology in the Russian Far East: Chronology of the Khodulikha 2 Upper Paleolithic Site. Currern Research in the Pleistocene 22:79.Google Scholar
Kuzmin, YV, Popov, VK, Glascock, MD, Shackley, MS. 2002. Sources of archaeological volcanic glass in the Primorye (Maritime) Province, Russian Far East. Archaeometry 44:505515.CrossRefGoogle Scholar
Kuzmin, YV, Vasilevski, AA, Gorbunov, SV, Burr, GS, Jull, AT, Orlova, LA, Shubina, OA. 2004. Chronology of prehistoric cultural complexes of Sakhalin Island (Russian Far East). Radiocarbon 46(1):353362.CrossRefGoogle Scholar
Kuznetsov, AM. 1995. Microblade industries and transition to Neolithic Age in Far East and Siberia. Journal of Korean Ancient Historical Society 18:369485.Google Scholar
Kuznetsov, AM. 1996. Late Palaeolithic sites of the Russian Maritime province Primorye. In: West FH, editor. American Beginnings: The Prehistory and Palaeoecology of Beringia. Chicago: Chicago University Press. p 267282.Google Scholar
Lbova, LV. 2002. The Transition from the Middle to Upper Paleolithic in the Western Trans-Baikal. Archaeology Ethnology and Anthropology of Eurasia 1:5975.Google Scholar
Lee, G. 2012. Characteristics of Paleolithic Industries in Southwestern Korea during MIS 3 and MIS 2. Quaternary International 248:1221, doi: 10.1016/j.quaint.2011.02.025.CrossRefGoogle Scholar
Lee, G-K. 2006. Lithic technology and the transition from the Middle to Upper Paleolithic in Korea. Archaeology Ethnology and Anthropology of Eurasia 4:3137, doi: 10.1134/S1563011006040049.CrossRefGoogle Scholar
Lee, Y-J, Kong, S. 2006. Le site Paléolithique de Suyanggae, Corée. L’anthropologie 110:223240.CrossRefGoogle Scholar
Lisitsyn, NF. 2000. Pozdny paleolit Chulymo-Yeniseiskogo mezhdurechya [The Late Palaeolithic of Chulym-Yenisei Watershed]. St. Petersburg: Petersburgskoye Vostokovedenie.Google Scholar
Medvedev, G. 1998. Upper Paleolithic sites in south-central Siberia. In: Derev’anko AP, editor. The Palaeolithic of Siberia: New Discoveries and Interpretations. Urbana: University of Illinois Press. p. 122132.Google Scholar
Medvedev, G, Cauwe, N, Vorob’eva, G, Coupe, D, Claes, L, Lipnina, E, Modrie, S, Mukharramov, S, Osadchy, S, Pettitte, P, et al. 1996. Paleoliticheskoye mestonakhozhdenie Malta (The Malta Paleolithic locality). Irkutsk: ARCOM Press.Google Scholar
Mochanov, YA, Fedoseeva, SA. 1996a. Ust’-Mil 2. In: West FH, editor. American Beginnings: The Prehistory and Palaeoecology of Beringia. Chicago: Chicago University Press. p. 174179.Google Scholar
Mochanov, YA, Fedoseeva, SA. 1996b. Ikhine 1 and 2. In: West FH, editor. American Beginnings: The Prehistory and Palaeoecology of Beringia. Chicago: Chicago University Press. p 189195.Google Scholar
Mochanov, YA, Fedoseeva, SA. 1996c. Verkhne-Troitskaya. In: West FH, editor. American Beginnings: The Prehistory and Palaeoecology of Beringia. Chicago: Chicago University Press. p 180184.Google Scholar
Mochanov, YA, Fedoseeva, SA. 1996d. Ezhantsy. In: West FH, editor. American Beginnings: The Prehistory and Palaeoecology of Beringia. Chicago: Chicago University Press. p 184188.Google Scholar
Mochanov, YA, Fedoseeva, SA. 1996e. Dyuktai Cave. In: West FH, editor. American Beginnings: The Prehistory and Palaeoecology of Beringia. Chicago: Chicago University Press. p 164174.Google Scholar
Morlan, RE. 1976. Technological Characteristics of some wedge-shaped cores in Northwestern North America and Northeast Asia. Asian Perspectives 19:96106.Google Scholar
Naganuma, T. 1985. Pirika 1 Iseki [Pirika 1 Site]. Sapporo: Hokkaido Archaeological Research Center.Google Scholar
Nakazawa, Y, Akai, F. 2017. Late-Glacial Bifacial Microblade Core Technologies in Hokkaido: An Implication of Human Adaptation along the Northern Pacific Rim. Quaternary International 442:4354, doi: 10.1016/j.quaint.2016.07.019.CrossRefGoogle Scholar
Nakazawa, Y, Izuho, M, Takakura, J, Yamada, S. 2005. Toward an understanding of technological variability in microblade assemblages in Hokkaido, Japan. Asian Perspectives 44:276292.CrossRefGoogle Scholar
Nian, X, Gao, X, Xie, F, Mei, H, Zhou, L. 2014. Chronology of the Youfang Site and its Implications for the emergence of microblade technology in North China. Quaternary International 347:113121, doi: 10.1016/j.quaint.2014.05.053.CrossRefGoogle Scholar
Norton, CJ, Bae, K, Lee, H, Harris, JWK. 2007. A review of Korean microlithic industries. In: Kuzmin YV, Keates SG, Chen S, editors. Origin and Spread of Microblade Technology in Northern Asia and North America. Burnaby (BC): Archaeology Press, Simon Fraser University. p 91102.Google Scholar
Okladnikov, AP, Kirillov, II. 1980. Iugo-Vostochnoe Zabaikal’e v Epochu Kamnia I Rannei Bronzy [South-Eastern Transbaikalia in the Stone Age and Early Bronze Age]. Novosibirsk: Nauka.Google Scholar
Ono, A, Sato, H, Tsutsumi, T, Kudo, Y. 2002. Radiocarbon dates and archaeology of the Late Pleistocene in the Japanese Islands. Radiocarbon 44(2):477494.CrossRefGoogle Scholar
Orlova, LA. 1995. Radiouglerodnoye datirovanie arheologichesikh pamyatnikov Sibiri i Dalnego Vostoka [Radiocarbon dating of archaeological sites from Siberia and the Russian Far East]. In: Derevianko AP, Kholushkin YR, editors. Melody estestvennykh nauk v arheologicheskikh rekonstruktsiyakh. Novosibirsk: Izdatelstvo Instituta Arheologii i Etnografii SO RAN. p 207232.Google Scholar
Pelegrin, J. 1988. Débitage expérimental par pression: du plus petit au plus grand. Technologie Préhistorique 25:3753.Google Scholar
Pelegrin, J. 2003. Blade making techniques from the Old World. In: Hirth KG, editor. Mesoamerican Lithic Technology: Experimentation and Interpretation. Salt Lake City (UT): The University of Utah Press. p 5571, [accessed 2017 Jun 29]. https://halshs.archives-ouvertes.fr/halshs-00005084/.Google Scholar
Pelegrin, J. 2012. New experimental observations for the characterization of pressure blade production techniques. In: Desrosiers PM, editor. The Emergence of Pressure Blade Making. Québec: Springer. p. 465500, [accessed 2017 Jun 29]. http://link.springer.com/chapter/10.1007/978-1-4614-2003-3_18.CrossRefGoogle Scholar
Pelegrin, J, Riche, C. 1999. Un réexamen de la série de Bouvante (Drôme): matières premières lithiques et composantes technologiques. In: Beeching A, editor. Circulations et identités culturelles alpines à la fin de la Préhistoire. Valence: Travaux du Centre d’Archéologie Préhistorique de Valence. p 183195.Google Scholar
Pelegrin, J, Yamanaka, I. 2007. From the smallest to the largest: experimental flaking by pressure techniques. Cultura Antiqua 58:116.Google Scholar
Perlès, C. 1984. Débitage laminaire de l’obsidienne dans le Néolithique de Franchthi (Grèce): techniques et place dans l’économie de l’industrie lithique. In: Tixier J, Inizan M-L, Roche H, editors. Préhistoire de la pierre taillée. 2, Economie du débitage laminaire. Paris: CREP. p 129137.Google Scholar
Reimer, PJ, Baillie, MGL, Bard, E, Bayliss, A, Beck, JW, Blackwell, PG, Ramsey, CB, Buck, CE, Burr, GS, Edwards, RL, et al. 2009. IntCal09 and Marine09 radiocarbon age calibration curves, 0–50,000 years cal BP. Radiocarbon 51(3):11111150.CrossRefGoogle Scholar
Rybin, EP, Khatsenovich, AM, Gunchinsuren, B, Olsen, JW, Zwyns, N. 2016. The impact of the LGM on the development of the Upper Paleolithic in Mongolia. Quaternary International 425:6987, doi: 10.1016/j.quaint.2016.05.001.CrossRefGoogle Scholar
Sato, H, Izuho, M, Morisaki, K. 2011. Human cultures and environmental changes in the Pleistocene-Holocene Transition in the Japanese archipelago. Quaternary International 237:93102.CrossRefGoogle Scholar
Sato, H, Tsutsumi, T. 2007. The Japanese microblade industries: technology, raw material procurement, and adaptations. In: Kuzmin YV, Keates SG, Chen S, editors. Origin and Spread of Microblade Technology in Northern Asia and North America. Burnaby (BC): Archaeology Press, Simon Fraser University. p 5778.Google Scholar
Seong, C. 1998. Microblade technology in Korea and adjacent Northeast Asia. Asian Perspectives 37:245278.Google Scholar
Seong, C. 2007. Late Pleistocene microlithic assemblages in Korea. In: Kuzmin YV, Keates Susan G, Chen S, editors. Origin and Spread of Microblade Technology in Northern Asia and North America. Burnaby (BC): Archaeology Press, Simon Fraser University. p 103144.Google Scholar
Seong, C. 2008. Tanged points, microblades and Late Palaeolithic hunting in Korea. Antiquity 82:871883, doi: 10.1017/S0003598X00097647.CrossRefGoogle Scholar
Seong, C. 2011. Evaluating radiocarbon dates and Late Paleolithic chronology in Korea. Arctic Anthropology 48:93112, doi: 10.1353/arc.2011.0112.CrossRefGoogle Scholar
Sitlivy, V, Medvedev, GI, Lipnina, EA. 1997. Les civilisations préhistoriques d’Asie centrale. 1. Le Paléolithique de la rive occidentale du lac Baïkal. Bruxelles, Belgium: Musées royaux d’art et d’histoire.Google Scholar
Song, Y, Cohen, DJ, Shi, J, Wu, X, Kvavadze, E, Goldberg, P, Zhang, S, Zhang, Y, Bar-Yosef, O. 2017. Environmental reconstruction and dating of Shizitan 29, Shanxi Province: an early microblade site in North China. Journal of Archaeological Science 79:1935, doi: 10.1016/j.jas.2017.01.007.CrossRefGoogle Scholar
Svezhentsev, IS, Lisitsyn, NF, Vasil’ev, SA. 1992. Radiouglerodnaia Khronologiia Eniseiskogo Paleolita (Radiocarbon Chronology of the Ienisseï Paleolithic). In: Khronstratigrafiia Paleolita Severnoi, Tsentral’noi, Vostochnoi Azii i Ameriki. Novosibirsk: Sibirskoe Otdelenie, Rossiiskaia Akademiia Nauka. p 5764.Google Scholar
Tabarev, AV. 1994. The Ustinovka Industry in the Stone Age of the Russian Far East: 40 years of discoveries. Lithic Technology 19:2134.CrossRefGoogle Scholar
Tabarev, AV. 1997. Paleolithic wedge-shaped microcores and experiments with pocket devices. Lithic Technology 22:139149.CrossRefGoogle Scholar
Tabarev, AV. 2012. Blades and microblades, percussion and pressure: towards the evolution of lithic technologies of the Stone Age Period, Russian Far East. In: Desrosiers PM, editor. The Emergence of Pressure Blade Making. Québec: Springer. p 329346, [accessed 2017 Jun 29]. http://link.springer.com/10.1007%2F978-1-4614-2003-3_11.CrossRefGoogle Scholar
Takakura, J. 2012. Emergence and development of the pressure microblade production: a view from the Upper Paleolithic of Northern Japan. In: Desrosiers PM, editor. The Emergence of Pressure Blade Making. Québec: Springer. p. 285306, [accessed 2017 Jun 29]. http://link.springer.com/10.1007%2F978-1-4614-2003-3_11.CrossRefGoogle Scholar
Terry, K, Buvit, I, Konstantinov, MV. 2016. Emergence of a microlithic complex in the Transbaikal region of southern Siberia. Quaternary International 425:8899, doi: 10.1016/j.quaint.2016.03.012.CrossRefGoogle Scholar
Tixier, J. 1976. L’industrie lithique capsienne de l’Aïn Dokkara. Région de Tébessa, Algérie. Fouilles L. Balout. Libyca 24:2154.Google Scholar
Tseitlin, S. 1979. Geologiya paleolita Severnoi Azii (Northeast Asia Paleolithic Geology). Moscow: Nauka.Google Scholar
Tsutsumi, T. 2007. The dynamics of obsidian use by the microblade industries of the Terminal Late Paleolithic. Quat. Res. Daiyonki-Kenkyu 46:179186.CrossRefGoogle Scholar
Vasil’ev, SA. 1996. Pozdny Paleolit Verkhnego Yeniseya (po materialam mnogoslojnykh stoyanok rayona Mayny) [The Late Paleolithic of the Upper Yenisei]. St. Petersburg, Russia: Petersburgskoye Vostokovedenie.Google Scholar
Vasil’ev, SA, Kuzmin, YV, Orlova, LA, Dementiev, VN. 2002. Radiocarbon-based chronology of the Paleolithic in Siberia and its relevance to the peopling of the New World. Radiocarbon 44(3):503530.CrossRefGoogle Scholar
Vasilevski, AA. 2003. Periodization and classification of the Upper Paleolithic of Sakhalin and Hokkaido in the light of the research conducted at the Ogonki-5 site. Archaeology Ethnology and Anthropology of Eurasia 3:5169.Google Scholar
Vasilevski, AA. 2006. The Upper Palaeolithic of Sakhalin Island. In: Nelson SM, Derevianko AP, Kuzmin YV, Bland RL, editors. Archaelogy of the Russian Far East: Eassays in Stone Age Prehistory. Oxford: Archaeopress. (BAR International series 1540) p 75100, [accessed 2017 Jun 29]. http://dspx.igm.nsc.ru/jspui/handle/IGM/5891.Google Scholar
Vasilevski, AA. 2008. Kamennyj vek ostrova Saxalin [The Stone Age of Sakhalin Island]. Yuzhno-Sakhalinsk, Russia: Russian Academy of Sciences, Siberian Branch.Google Scholar
Vasil’evskii, RS. 1998. Fishing as an early form of MARITIME Adaptation on the Pacific Coast of northeast Asia. Bland RL, translator. Arctic Anthropology 35:281295.Google Scholar
Vasil’evskii, RS, Krupianko, AA, Tabarev, AV. 1997. Genezis Neolita na Yuge Dal’nego Vostoka Rossii (kamennaya industriya i problema ranneii osedlosti) [Genesis of the Neolithic in the South of the Russian Far East: Lithic Industry and the Question of the First Peopling]. Vladivostok, Russia: RAN, Far Eastern Univesity.Google Scholar
Whittaker, JC. 1994. Flintknapping: Making and Understanding Stone Tools. Austin (TX): University of Texas Press. [accessed 2017 Jul 4]. https://books.google.fr/books?hl=fr&lr=&id=4J79DAAAQBAJ&oi=fnd&pg=PP1&dq=Flintknapping:+Making+and+Understanding+Stone+Tools&ots=B6bqEtTETd&sig=TVUe_vXrI_pbz4djlfiyzCruJGA.Google Scholar
Yakushige, M, Sato, H. 2014. Shirataki obsidian exploitation and circulation in prehistoric northern Japan. Journal of Lithic Studies 1:319342, doi: 10.2218/jls.v1i1.768.CrossRefGoogle Scholar
Yi, M, Gao, X, Li, F, Chen, F. 2016. Rethinking the origin of microblade technology: a chronological and ecological perspective. Quaternary International 400:130139.CrossRefGoogle Scholar
Yi, S, Clark, G. 1985. The “Dyuktai Culture” and New World Origins. Current Anthropology 26:120.CrossRefGoogle Scholar
Yi, YJ. 1984. Excavation Report on Danyang Suyanggae Paleolithic Site. Cheongju: Chungbuk National University Museum.Google Scholar
YUM (Yonsei University Museum). 2001. Old Stone Age Relics of Korea. Seoul: Yonsei University Press.Google Scholar
Zhang, J-F, Wang, X-Q, Qiu, W-L, Shelach, G, Hu, G, Fu, X, Zhuang, M-G, Zhou, L-P. 2011. The Paleolithic site of Longwangchan in the Middle Yellow River, China: chronology, paleoenvironment and implications. Journal of Archaeological Science 38:15371550, doi: 10.1016/j.jas.2011.02.019.Google Scholar
Zhao, HL. 2011. An experimental study of flaking microblade. Acta Anthropol. Sin 30:2231.CrossRefGoogle Scholar
Supplementary material: Image

Gómez Coutouly supplementary material

Figure S1

Download Gómez Coutouly supplementary material(Image)
Image 2.7 MB