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Early Subneolithic Ceramic Sequences in Eastern Fennoscandia—A Bayesian Approach

Published online by Cambridge University Press:  18 July 2016

Petro Pesonen ,
Markku Oinonen ,
Christian Carpelan  and
Päivi Onkamo
Petro Pesonen*
Affiliation:
Department of Philosophy, History, Culture and Art Studies, University of Helsinki, Finland Department of Biosciences, University of Helsinki, Finland
Markku Oinonen
Affiliation:
Finnish Museum of Natural History, Dating Laboratory, University of Helsinki, Finland
Christian Carpelan
Affiliation:
Department of Philosophy, History, Culture and Art Studies, University of Helsinki, Finland
Päivi Onkamo
Affiliation:
Department of Biosciences, University of Helsinki, Finland
*
Corresponding author. Email: [email protected]
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Abstract

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In this contribution, we establish a radiocarbon-based chronology of early ceramic sequences in eastern Fennoscandia utilizing a Bayesian approach. The data consist of 56 individual 14C dates from charred or fermented food remains (charred crust, food residue) and birch bark tar used to seal cracks in vessels. We present the results of the models, discuss the chronological boundaries obtained, and compare the outcome with contemporary archaeological knowledge of the Subneolithic in eastern Fennoscandia. We also look at the role of charred crust δ13C values as indicators of reservoir effect present in the dates, perform some preliminary correction procedures for the dates, and discuss their effect on the chronologies.

Type
Articles
Information
Radiocarbon , Volume 54 , Issue 3-4 , 2012 , pp. 661 - 676
Copyright
Copyright © 2012 by the Arizona Board of Regents on behalf of the University of Arizona 

References

Arrhenius, B, Lidén, K. 1989. Fisksoppa eller vegetabilisk gröt? Diskussion kring matresterna från Tybrind Vig. Laborativ Arkeologi 3:615.Google Scholar
Äyräpää, A. 1956. Den yngre stenålderns kronologi i Finland och Sverige. Finskt Museum 1955:547.Google Scholar
Bayliss, A. 2009. Rolling out revolution: using radiocarbon dating in archaeology. Radiocarbon 51(1):123–47.Google Scholar
Bronk Ramsey, C. 2009a. Bayesian analysis of radiocarbon dates. Radiocarbon 51(1):337–60.Google Scholar
Bronk Ramsey, C. 2009b. Dealing with outliers and offsets in radiocarbon dating. Radiocarbon 51(3):1023–45.Google Scholar
Buck, C, Kenworthy, J, Litton, C, Smith, A. 1991. Combining archaeological and radiocarbon information: a Bayesian approach to calibration. Antiquity 65(249):808–21.Google Scholar
Carpelan, C. 1979. Om asbestkeramikens historia i Fennoskandien. Finskt Museum 1978:525.Google Scholar
Carpelan, C. 1999. Käännekohtia Suomen esihistoriassa aikavälillä 5100–1000 eKr. In: Fogelberg, P, editor. Pohjan poluilla. Suomalaisten juuret nykytutkimuksen mukaan. Bidrag till kännedom av Finlands natur och folk 153. Helsinki: The Finnish Society of Sciences and Letters, p 249–80.Google Scholar
Carpelan, C. 2002. Esihistorian vuosiluvut, ajoitukset ja kronologia. In: Grünthal, R, editor. Ennen muinoin – miten menneisyyttämme tutkitaan. p 1827.Google Scholar
Carpelan, C. 2004. Environment, archaeology and radiocarbon dates – note from the Inari region, Northern Finnish Lapland. In: Lavento, M, editor. Early in the North, Volume 5. Iskos 13. Helsinki: Finnish Antiquarian Society, p 1745.Google Scholar
Craig, OE, Forster, M, Andersen, SH, Koch, E, Crombé, P, Milner, NJ, Stern, B, Bailey, GN, Heron, CP. 2007. Molecular and isotopic demonstration of the processing of aquatic products in northern European prehistory. Archaeometry 49(1):135–52.Google Scholar
Dolukhanov, P, Shukurov, A, Gronenborn, D, Sokoloff, D, Timofeev, V, Zaitseva, G. 2005. The chronology of Neolithic dispersal in Central and Eastern Europe. Journal of Archaeological Science 32(10):1441–58.Google Scholar
Edgren, T. 1964. Jäkärlä-gruppen. En västfinsk kulturgrupp under yngre stenålder. Suomen Muinaismuistoyhdistyksen Aikakauskirja 64. Helsinki.Google Scholar
Eronen, M. 2005. Land uplift: virgin land from the sea. In: Eronen, M, editor. The Physical Geography of Fennoscandia. Oxford: Oxford University Press, p 1732.Google Scholar
Europaeus, A. 1926. Stenålderskeramik från kustboplatser I Finland. In: Nordman, CA, editor. Nordiska Arkeologmötet i Helsingfors 1925. p. 4577.Google Scholar
Europaeus-Äyräpää, A. 1930. Die relative Chronologie der steinzeitlichen Keramik in Finnland 1–2. Acta Archaeologica 1:165–90, 205–20.Google Scholar
Fischer, A, Heinemeier, J. 2003. Freshwater reservoir effect in 14C dates of food residue on pottery. Radiocarbon 45(3):449–86.Google Scholar
Fischer, A, Olsen, J, Richards, M, Heinemeier, J, Sveinbjörnsdóttir, ÁE, Bennike, P. 2007. Coast-inland mobility and diet in the Danish Mesolithic and Neolithic: evidence from stable isotope values of humans and dogs. Journal of Archaeological Science 34(12):2125–50.Google Scholar
German, K. 2009. Early hunter-gatherer ceramics in Karelia. Ceramics before Farming. The Dispersal of Pottery among Prehistoric Eurasian Hunter-Gatherers. London: University College London Institute of Archaeology Publications, p 255–80.Google Scholar
Gusentsova, TM. 2003. Keramika rannego neolita cevero-vostoka Leningradskoy oblasti. In: Timofeyev, VI, Sinitsyna, GV, editors. Neolit—eneolit Yuga i neolit Severa Vostochnoy Evropy. Saint Petersburg: IIMK RAN. p 268–76.Google Scholar
Hallgren, F. 2008. Identitet I praktik. Lokala, regionala och överrgionala sociala sammanhang inom nordlig trattbägarkultur. Coast to Coast-Book 17. Stockholm.Google Scholar
Hart, JP, Lovis, WA. 2007. The freshwater reservoir and radiocarbon dates on cooking residues: old apparent ages or a single outlier? Comments on Fischer and Heinemeier (2003). Radiocarbon 49(3):1403–10.Google Scholar
Hedenström, A, Possnert, G. 2001. Reservoir ages in Baltic Sea sediment—a case study of an isolation sequence from the Litorina Sea stage. Quaternary Science Reviews 20(18):1779–85.Google Scholar
Hobson, KA, Fisk, A, Karnovsky, N, Holst, M, Gagnon, JM, Fortier, M. 2002. A stable isotope (δ13C, δ15N) model for the North Water food web: implications for evaluating trophodynamics and the flow of energy and contaminants. Deep-Sea Research II 49(22–23):5131–50.Google Scholar
Hopia, A, Reunanen, M, Pesonen, P. 2003. GC-MS analysis of organic residues in the potsherd samples from Vantaa Maarinkunnas [Appendix]. Finskt Museum 1995:4455.Google Scholar
Jordan, P, Zvelebil, M, editors. 2009. Ceramics before Farming. The Dispersal of Pottery among Prehistoric Eurasian Hunter-Gatherers. London: University College London Institute of Archaeology Publications.Google Scholar
Jungner, H, Sonninen, E. 2004. Radiocarbon Dates 6. Report, Dating Laboratory, University of Helsinki.Google Scholar
Kiljunen, M, Grey, J, Sinisalo, T, Harrod, C, Immonen, H Jones, RI. 2006. A revised model for lipid-normalizing δ13C values from aquatic organisms, with implications for isotope mixing models. Journal of Applied Ecology 43(6):1213–22.Google Scholar
Koivisto, S. 1998. Ylikiiminki Vepsänkangas – Sär 1 – asuinpaikka Pohjois-Pohjanmaalla: alustavia kaivaustuloksia. In: Ranta, H, editor. Kentältä Poimittua 4. Kirjoitelmia arkeologian alalta. Museoviraston arkeologian osaston julkaisuja no7. Helsinki: National Board of Antiquities, p 4150.Google Scholar
Lanting, JN, van der Plicht, J. 1998. Reservoir effects and apparent 14C-ages. The Journal of Irish Archaeology IX:151–65.Google Scholar
Leskinen, S. 2003. On the dating and function of the Comb ceramics from Maarinkunnas. Finskt Museum 1995:543.Google Scholar
Leskinen, S, Pesonen, P. 2005. Kuka pureskeli pihkaa Summasjärven rannalla? Purupihkamälli ja muita metallikautisia löytöjä Saarijärveltä. In: Ranta, H, editor. Kentältä poimittua 6. Kirjoitelmia arkeologian alalta. Museoviraston arkeologian osaston julkaisuja no 11. Helsinki: National Board of Antiquities, p 4864.Google Scholar
Leskinen, S, Pesonen, P. 2008. Vantaan Esihistoria. Vantaan kaupunki.Google Scholar
Luoto, J, Terho, A. 1988. Kuoppakeraaminen astia Nousiaisten Kirjunpajusta. Faravid 12:728.Google Scholar
Oinonen, M, Uotila, K, Zetterberg, P, Hilasvuori, E, Nordqvist, H. 2011. Context dating of Medieval Turku - wiggle matching technique scrutinized at Aboa Vetus. In: Uotila, K, editor. Castella Maris Baltici X. Proceedings of the Castella Maris Baltici Symposium (AMAF XVIII Turku 2011).Google Scholar
Olsen, J, Heinemeier, J. 2007. AMS dating of human bone from the Ostorf cemetery I the light of new information on dietary habits and freshwater reservoir effects. In: Larsson, L, Lüth, F, Terberger, T, editors. Innovation and Continuity – Non-Megalithic Mortuary Practices in the Baltic. New Methods and Research into the Development of Stone Age Society. Bericht der Römisch-Germanischen Kommission 88. p 339–52.Google Scholar
Olsson, IU. 1980. Content of 14C in marine mammals from Northern Europe. Radiocarbon 22(3):662–75.Google Scholar
Olsson, IU. 1991. Accuracy and precision in sediment chronology. Hydrobiologia 214(1):2534.Google Scholar
Olsson, IU. 1996. 14C dates and the reservoir effect. In: International Workshop on Isotope-Geochemical Research in the Baltic Region, p 523.Google Scholar
Onkamo, P, Kammonen, J, Pesonen, P, Sundell, T, Moltchanova, E, Oinonen, M, Haimila, M. 2012. Bayesian spatiotemporal analysis of radiocarbon dates from eastern Fennoscandia. Radiocarbon, these proceedings.Google Scholar
Pesonen, P. 1994. Tervanpolton juurilla. Koivutervan käyttö saviastian korjauksessa kivikaudella. Tekniikan Waiheita 1:47.Google Scholar
Pesonen, P. 1996. Early Asbestos Ware. In: Kirkinen, T, editor. Pithouses and Potmakers in Eastern Finland. Reports of the Ancient Lake Saimaa Project. Helsinki Papers in Archaeology no9. Helsinki: University of Helsinki. p 939.Google Scholar
Pesonen, P. 1999a. Radiocarbon dating of birch bark pitches in typical comb ware in Finland. In: Huurre, M, editor. Dig it All. Papers Dedicated to Ari Siiriäinen. Helsinki: Finnish Antiquarian Society, p 191–7.Google Scholar
Pesonen, P. 1999b. Suomen esihistoriallinen keramiikka. InterNet pages for teaching Finnish prehistoric pottery. University of Helsinki. http://www.helsinki.fi/hum/arla/keram/. Accessed 5 June 2011.Google Scholar
Pesonen, P. 2001. Kiteen sarvisuo -lisää varhaisesta asbestikeramiikasta. In: Ranta, H, editor. Kentältä Poimittua 5. Kirjoitelmia arkeologian alalta. Museoviraston arkeologian osaston julkaisuja no9. Helsinki: National Board of Antiquities, p 3456.Google Scholar
Pesonen, P. 2004. Neolithic pots and ceramics chronology—AMS-datings of Middle and Late Neolithic ceramics in Finland. In Uino P, editor. Fenno-Ugri et Slavi 2002: Dating and Chronology. Museoviraston arkeologian osaston julkaisuja no 10. Helsinki: National Board of Antiquities, p 8797.Google Scholar
Pesonen, P, Leskinen, S. 2009. Pottery of the Stone Age hunter-gatherers in Finland. In: Jordan, P, Zvelebil, M, editors. Ceramics before Farming. The Dispersal of Pottery among Prehistoric Eurasian Hunter-Gatherers. London: University College London Institute of Archaeology Publications. p 299318.Google Scholar
Philippsen, B, Kjeldsen, H, Hartz, S, Paulsen, H, Clausen, I, Heinemeier, J. 2010. The hardwater effect in AMS 14C dating of food crusts on pottery. Nuclear Instruments and Methods in Physics Research B 268(7–8):995–8.Google Scholar
Piezonka, H. 2008. Neue AMS-Daten zur Frühneolithischen Keramikentwicklung in der Nordosteuropäischen Waldzone. Estonian Journal of Archaeology 12(2):67113.Google Scholar
Reimer, PJ, Baillie, MGL, Bard, E, Bayliss, A, Beck, JW, Blackwell, PG, Bronk Ramsey, C, Buck, CE, Burr, GS, Edwards, RL, Friedrich, M, Grootes, PM, Guilderson, TP, Hajdas, I, Heaton, TJ, Hogg, AG, Hughen, KA, Kaiser, KF, Kromer, B, McCormac, FG, Manning, SW, Reimer, RW, Richards, DA, Southon, JR, Talamo, S, Turney, CSM, van der Plicht, J, Weyhenmeyer, CE. 2009. IntCal09 and Marine09 radiocarbon age calibration curves, 0–50,000 years cal BP. Radiocarbon 51(4):1111–50.Google Scholar
Schulz, E-L. 2004. Ankkapurhan arkeologisen aineiston radiohiiliajoitukset. Ammoin Ankkapurhassa. Kymenlaaksossa kivikaudella. Helsinki, p 46.Google Scholar
Siiriäinen, A. 1970. Studies relating to shore displacement and Stone Age chronology in Finland. Finskt Museum 1973:522.Google Scholar
Sinisalo, T, Jones, RI, Helle, E, Valtonen, ET. 2008. Changes in diets of individual Baltic ringed seals (Phoca hispida botnica) during their breeding season inferred from stable isotope analysis of multiple tissues. Marine Mammal Science 24:159–70.Google Scholar
Skandfer, M. 2003. Tidlig, nordlig kamkeramikk. Typologi-kronologi-kultur [unpublished PhD thesis]. University of Tromsø.Google Scholar
Skandfer, M. 2005. Early Northern Comb Ware in Finnmark: the concept of Säräisniemi 1 reconsidered. Fennoscandia Archaeologica XXII:323.Google Scholar
Skandfer, M. 2009. Exploring the role of technological choice in Early Northern Comb Ware. In: Jordan, P, Zvelebil, M, editors. Ceramics before Farming. The Dispersal of Pottery among Prehistoric Eurasian Hunter-Gatherers. London: University College London Institute of Archaeology Publications, p 347–73.Google Scholar
Stenbäck, N. 2003. Människorna vid havet – platser och keramik på ålandsöarna perioden 3500–2000 f.Kr. Stockholm Studies in Archaeology 28.Google Scholar
Stern, B, Clelland, SJ, Nordby, CC, Urem-Kotsou, D. 2006. Bulk stable light isotopic ratios in archaeological birch bark tars. Applied Geochemistry 21(10):1668–73.Google Scholar
Syväranta, J, Jones, RI. 2008. Changes in feeding niche widths of perch and roach following biomanipulation, revealed by stable isotope analysis. Freshwater Biology 53(3):425–34.Google Scholar
Takala, H, Sirviö, T. 2003. Telkkälä, Muolaa: a multi-period dwelling site on the Karelian Isthmus. Fennoscandia Archaeologica 20:5577 Google Scholar
Torvinen, M. 2000. Säräisniemi 1 Ware. Fennoscandia Archaeologica 17:335.Google Scholar
Tsetlin, YB. 2008. Neolit tsentra Russkoy ravniny. Ornmentatsiya keramiki i metodika periodizatsii kul'tur (Summary: The center of the Russian plane in the Neolithic Age. Decoration of clay vessels and methods for the periodizatin of cultures). Tula: IA RAN.Google Scholar
Vahur, S, Kriiska, A, Leito, I. 2011. Investigation of the adhesive residue on the flint insert and the adhesive lump found from the Pulli Early Mesolithic site (Estonia) by micro-ATR-FT-IR spectroscopy. Estonian Journal of Archaeology 15(1):317.Google Scholar