Hostname: page-component-8448b6f56d-m8qmq Total loading time: 0 Render date: 2024-04-24T12:58:02.939Z Has data issue: false hasContentIssue false
  • English
  • Français

Early seventh-millennium AMS dates from domestic seeds in the Initial Neolithic at Franchthi Cave (Argolid, Greece)

Published online by Cambridge University Press:  22 November 2013

Catherine Perlès ,
Anita Quiles  and
Hélène Valladas
Catherine Perlès
Affiliation:
1Université Paris Ouest Nanterre La Défense, Maison de l'Archéologie et de l'Ethnologie, Préhistoire et Technologie, 21 Allée de l'Université, 92023, Nanterre Cedex, France (Email: catherine.perles@mae.u-paris10.fr)
Anita Quiles
Affiliation:
2Laboratoire des Sciences du Climat et de l'Environnement (LSCE/IPSL), CEA-CNRS-UVSQ, Bâtiment 12, Avenue de la Terrasse, 91198, Gif-sur-Yvette Cedex, France
Hélène Valladas
Affiliation:
2Laboratoire des Sciences du Climat et de l'Environnement (LSCE/IPSL), CEA-CNRS-UVSQ, Bâtiment 12, Avenue de la Terrasse, 91198, Gif-sur-Yvette Cedex, France
Get access Rights & Permissions [Opens in a new window]

Abstract

When, and by what route, did farming first reach Europe? A terrestrial model might envisage a gradual advance around the northern fringes of the Aegean, reaching Thrace and Macedonia before continuing southwards to Thessaly and the Peloponnese. New dates from Franchthi Cave in southern Greece, reported here, cast doubt on such a model, indicating that cereal cultivation, involving newly introduced crop species, began during the first half of the seventh millennium BC. This is earlier than in northern Greece and several centuries earlier than in Bulgaria, and suggests that farming spread to south-eastern Europe by a number of different routes, including potentially a maritime, island-hopping connection across the Aegean Sea. The results also illustrate the continuing importance of key sites such as Franchthi to our understanding of the European Neolithic transition, and the additional insights that can emerge from the application of new dating projects to these sites.

Keywords

GreeceFranchthi CaveInitial Neolithicseventh millennium BCfarmingradiocarbon dating
Type
Research articles
Information
Antiquity , Volume 87 , Issue 338 , December 2013 , pp. 1001 - 1015
Copyright
Copyright © Antiquity Publications Ltd 2013

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

Alley, R.B., Mayewski, P.A., Sowers, T., Stuiver, M., Taylor, K.C. & Clark, P.U.. 1997. Holocene climate instability: a prominent, widespread event 8200 yr ago. Geology 25:483-86.Google Scholar
Ammerman, A.J. & Cavalli-Sforza, L.L.. 1971. Measuring the rate of spread of early farming in Europe. Man NS 6:674-88.Google Scholar
Ammerman, A.J. 1984. The Neolithic transition and the genetics of populations in Europe. Princeton (NJ): Princeton University Press.Google Scholar
Arnold, M., Bard, E., Maurice, P. & Duplessy, J.C.. 1987. 14C dating with the Gif-sur-Yvette Tandetron accelerator: status report. Nuclear Instruments and Methods in Physics Research B29: 120-23.Google Scholar
Binder, D. In press. Mésolithique et Néolithique ancien en talie et dans le sud-est de la France entre 7000 et 5500 BCE cal: questions ouvertes sur les dynamiques culturelles et les procès d'interaction, in Jaubert, J., Fourment, N. & Depaepe, P. (ed.) Transitions, ruptures et continuité durant la Preéhistoire, Actes du XXVlle Congrès préhistorique de France (Bordeaux — Les Eyzies, 2010). Paris: Société préhistorique française.Google Scholar
Bocquet-Appel, J.-P., Naji, S., Linden, M. Vander & KozŁOwski, J.. 2009. Detection of diffusion and contact zones of early farming in Europe from the time-space distribution of 14Cdates. Journal of Archaeological Science 36: 807-20.Google Scholar
Bronk Ramsey, C. 2001. Development of the radiocarbon calibration program. Radiocarbon 43(2A):355-63.Google Scholar
Bronk Ramsey, C. 2009. Bayesian analysis of radiocarbon dates. Radiocarbon 51:337-60.Google Scholar
ÇIlingiroglu, A. & ÇIlingiroglu, Ç.. 2007. Ulucak, , in Ozdogan, M. & Basgelen, N. (ed.) Turkiye'de Neolitik Dönem, Yeni Kazilar, Yeni Bulgular. 361-72. Istanbul: Arkeoloji ve Sanat Tayinlari.Google Scholar
Clark, J. 1965. Radiocarbon dating and the spread of farming economy. Antiquity 39: 4548.Google Scholar
Davison, K., Dolukhanov, P.M., Sarson, G.R. & Shukurov, A.. 2006. The role of waterways in the spread of the Neolithic. Journal of Archaeological Science 33: 641-52.Google Scholar
Derin, Z., Filiz, A. & Tayfun, C.. 2009. Izmir'in prehistorik Yerleşimi-Yeçilova Höyüğü 2005-2006 yili Calişmalari. Arkeoloji Dergisi 13: 158.Google Scholar
Diamant, S. 1979. A short history of archaeological sieving at Franchthi Cave, Greece. Journal of Field Archaeology 6: 203-17.Google Scholar
Efstratiou, N., Karetsou, A., Banou, E. & Margomenou, D.. 2004. The Neolithic settlement of Knossos: new light on an old picture, in Cadogan, G., Hatzaki, E. & Vasilakis, E. (ed.) Knossos: palace, city, state (British School at Athens Studies 12): 4349. London: British School at Athens.Google Scholar
Erdogu, B. 2011. A preliminary report from the 2009 and 2010 field seasons at Ugurlu on the island of Gokceada. Anatolica 37: 4565.Google Scholar
Farrand, W.R. 2000. Depositional history of ‘Franchthi Cave, sediments, stratigraphy and chronology. With a report on the background of the Franchthi Project by TW Jacobsen (Excavations at Franchthi Cave, Greece, fasc. 12). Bloomington: Indiana University Press.Google Scholar
Gkiasta, M., Russell, T., Shennan, S. & Steele, J.. 2003. Neolithic transition in Europe: the radiocarbon record revisited. Antiquity 77: 4560.Google Scholar
Hansen, J.M. 1991. The palaeoethnobotany of Franchthi Cave (Excavations at Franchthi Cave, Greece, fasc. 7). Bloomington: Indiana University Press.Google Scholar
Higham, T., Ramsey, C. Bronk, Brock, F., Baker, D. & Ditchfield, P.. 2011. Radiocarbon dates from the Oxford AMS system: archaeometry datelist 34. Archaeometry 53: 1067-84.Google Scholar
Jacobsen, T.W. 1969. Excavations at Porto Cheli and vicinity, preliminary report, II: the Franchthi Cave, 1967-1968.Hesperia: 343-81.Google Scholar
Jacobsen, T.W. & Farrand, W.R.. 1987. Franchthi Cave and Paralia Maps, plans and sections (Excavations at Franchthi Cave, fasc. 1). Bloomington: Indiana University Press.Google Scholar
Karamitrou-Mentessidi, G., Efstratiou, N., KozłOwski, J.K., Kaczanowska, M., Maniatis, Y., Curci, A., Michalopoulou, S., Papathanasiou, A. & Valamoti, S.M.. 2013. New evidence on the beginning of farming in Greece: the Early Neolithic settlement of Mavropigi in western Macedonia (Greece).Antiquity 87(336). Available at:http://antiquity.ac.uk/projgall/mentessidi336/ (accessed 17 June 2013).Google Scholar
Kotsakis, K. 2001. Mesolithic to Neolithic in Greece. Continuity, discontinuity or change of course?Documenta Praehistorica 28: 6373.Google Scholar
Kyparissi-Apostolika, N. 2006. The beginning of the Neolithic in Thessaly, in Gatsov, I. & Schwarzberg, H. (ed.) Aegean — Marmara — Black Sea: the present state of research on the Early Neolithic: 5967. Langenweissbach: Beier & Beran.Google Scholar
Lespez, L., Tsirtsoni, Z., Darcque, P., Koukouli-Chryssanthaki, H., Malamidou, D., Treuil, R., Davidson, R., Kourtessi-Philippakis, G. & Oberlin, C.. 2013. The lowest levels at Dikili Tash, northern Greece: a missing link in the Early Neolithic of Europe. Antiquity 87: 3045.Google Scholar
Munro, N. & Stiner, M.. 2012. Franchthi Cave annual report. Zooarchaeological studies. Paper presented at the ASCSA open meeting, Athens, March 9, 2012.Google Scholar
Payne, S. 1975. Faunal change at the Franchthi Cave from 20 000 BC to 3000 BC, in Clason, A.T. (ed.) Archaeozoobgical studies: 120-31. The Hague: Elsevier.Google Scholar
Perles, C. 1990. Les industries lithiques taillees de Franchthi (Argolide, Grèce). Tome II: les industries du Mèesolithique et du Neèolithique initial (Excavations at Franchthi Cave, fasc. 5). Bloomington: Indiana University Press.Google Scholar
Perles, C. 2001. The Early Neolithic in Greece. The first farming communities in Europe. Cambridge: Cambridge University Press.Google Scholar
Perles, C. 2004. Les industries lithiques taillées de Franchthi (Argolide, Grèece). Tome III: du Neèolithique ancien au Neolithique final (Excavations at Franchthi Cave, fasc. 13). Bloomington: Indiana University Press.Google Scholar
Perles, C. 2005. From the Near East to Greece: let's reverse the focus. Cultural elements that didn't transfer, in Lichter, C. (ed.) How did farming reach Europe? Anatolian-European relations from the second half of the 7th through the first half of the 6th millennium cal BC (Byzas 2): 275-90. Istanbul: Deutsches archaologisches Institut Abteilung Istanbul.Google Scholar
Perles, C. 2010. Grèce et Balkans: deux voies de penétration distinctes du Néolithique en Europe? in Demoule, J.-P. (ed.) La révolution Néolithique dans le monde: 263-81. Paris: CNRS.Google Scholar
Perles, C. 2013. Tempi of change: when soloists don't play together. Arrhythmia in ‘continuous’ change. Journal of Archaeological Method and Theory 20: 281-99. http://dx.doi.org/10.1007/s10816-012-9164-1Google Scholar
Pinhasi, R., Fort, J. & Ammerman, A.J.. 2005. Tracing the origin and spread of agriculture in Europe. PLoS Biology 3: 2220-28. http://dx.doi.org/10.1371/journal.pbio.0030410Google Scholar
Rasse, M. 2008. La diffusion du Néolithique en Europe (7000-5000 av. J.-C. et sa représentation cartographique. M@ppemonde 90(2). Available at: http://mappemonde.mgm.fr/num18/articles/art08205.html (accessed 5 June 2013).Google Scholar
Reimer, P.J., Baillie, M.G.L., Bard, E., Bayliss, A., Beck, J.W., Blackwell, P.G., Ramsey, C.Bronk, Buck, C.E., Burr, G.S., Edwards, R.L., Friedrich, M., Grootes, P.M., Guilderson, T.P., Hajdas, I., Heaton, T.J., Hogg, A.G., Hughen, K.A., Kaiser, K.F., Kromer, B., Mccormac, F.G., Manning, S.W., Reimer, R.W., Richards, D.A., Southon, J.R., Talamo, S., Turney, C.S.M., Plicht, J. Van Der & Weyhenmeyer, C.E.. 2009. Intcal09 and Marine09 radiocarbon age calibration curves, 0-50,000 years cal BP. Radiocarbon 51:1111-50.Google Scholar
Reingruber, A. & Thissen, L.. 2005. 14C database for the Aegean catchment (eastern Greece, southern Balkans and western Turkey), in Lichter, C. (ed.) How did farming reach Europe? Anatolian-European relations from the second halfofthe 7th through the first halfof the 6th millennium cal BC (Byzas 2): 295327. Istanbul: Deutsches archaologisches Institut Abteilung Istanbul.Google Scholar
Reingruber, A. & Thissen, L. 2009. Depending on 14C data: chronological frameworks in the Neolithic and Chalcolithic of southeastern Europe. Radiocarbon 51: 751-70.Google Scholar
Renfrew, C. 1973. Before civilization: the radiocarbon revolution and prehistoric Europe. New York: Knopf.Google Scholar
Rose, M. 1995. Fishing at Franchthi Cave, Greece: changing environments and patterns of exploitation. Old World Archaeology Newsletter 18(3): 2126.Google Scholar
Runnels, C.N. 2003. The origins of the Greek Neolithic: a personal view, in Ammerman, A.J. & Biagi, P. (ed.) The widening harvest: looking back, looking forward: 121-32. Boston (MA): Archaeological Institute of America.Google Scholar
Saglamtimur, H. 2007. Ege Gubre Neolitik Yerleşimi, in ÖZdoğAn, M. & Basgelen, N. (ed.) Turkiye'de Neolitik Dönem. Yeni Kazilar, Yeni Bulgular: 373-84. Istanbul: Arkeoloji ve Sanat Yayinlari.Google Scholar
Sampson, A. 2005. New evidence from the early productive stages in the Aegean Basin from the 9th to the 7th millennium cal BC, in Lichter, C. (ed.) How did farmingreach Europe? Anatolian-European relations from the second halfofthe 7th through the first halfof the 6th millennium cal BC (Byzas 2): 131-41. Istanbul: Deutsches archaologisches Institut Abteilung Istanbul.Google Scholar
SéFéRiades, M. 2007. Complexity of the processes of Neolithization: tradition and modernity of the Aegean world at the dawn of the Holocene period (11-9 kyr). Quaternary International 167-168: 177-85.Google Scholar
Shackleton, J.C. 1988. Marine molluscan remains from Franchthi Cave (Excavations at Franchthi Cave, fasc. 4). Bloomington: Indiana University Press.Google Scholar
Theocharis, D.R. 1973. Neolithic Greece. Athens: National Bank of Greece.Google Scholar
Thissen, L. 2000. Early village communities in Anatolia and the Balkans, 6500-5500 cal BC. Studies in chronology and culture contact. Unpublished PhD dissertation, Leiden University.Google Scholar
Thissen, L. 2005. Coming to grips with the Aegean in prehistory: an outline of the temporal framework, in Lichter, C. (ed.) How didfarming reach Europe? Anatolian-European relations from the second halfof the 7th through the first half of the 6th millennium cal BC (Byzas 2): 2940. Istanbul: Deutsches archaologisches Institut Abteilung Istanbul.Google Scholar
Vanden Linden, M. 2011. In constant motion? Recent advances in mathematical modelling and radiocarbon chronology of the Neolithisation of Europe, in Hadjikoumis, A., Robinson, E. & Viner, S. (ed.) The dynamics of Neolithisation in Europe. Studies in honour of Andrew Sherratt 2645. Oxford & Oakville (CT): Oxbow.Google Scholar
Vitelli, K.D. 1993. Franchthi Neolithic pottery. Vol. 1: classification and ceramic phases 1 and 2 (Excavations at Franchthi Cave, fasc. 8). Bloomington: Indiana University Press.Google Scholar
Weinberg, S.S. 1970. The Stone Age in the Aegean, in The Cambridge ancient history I, part 1: 557672. Cambridge: Cambridge University Press.Google Scholar
Weninger, B., Alram-Stern, E., Bauer, E., Clare, L., Danzeglocke, U., Joris, O., Kubatski, C., Rollefson, G., Todorova, H. & Andel, T. Van. 2006. Climate forcing due to the 8200 cal yr BP event observed at Early Neolithic sites in the eastern Mediterranean. Quaternary Research 66: 401-20.Google Scholar
Zilhão, J. 2011. Time is on my side …, in Hadjikoumis, A., Robinson, E. & Viner, S. (ed.) The dynamics of neolithisation in Europe. Studies in honour of Andrew Sherratt 4665. Oxford & Oakville (CT): Oxbow.Google Scholar