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Eight New Late Pleistocene/Early Holocene AMS Dates from the Southeastern Baltic

Published online by Cambridge University Press:  29 January 2019

Bente Philippsen*
Affiliation:
Aarhus AMS Centre, Department of Physics and Astronomy, Aarhus University, Ny Munkegade 120, 8000 Aarhus C, Denmark Centre for Urban Network Evolutions (UrbNet), Aarhus University, Moesgaard Allé 20, 8270 Højbjerg, Denmark
Livija Ivanovaitė
Affiliation:
Department of Archaeology and Heritage Studies, Aarhus University, Moesgård Allé 20, 8270 Højbjerg, Denmark
Kirill Makhotka
Affiliation:
The Kaliningrad Regional Museum of History and Art, Klinicheskaya Str. 21, Kaliningrad 236016, Russia
Florian Sauer
Affiliation:
Department of Archaeology and Heritage Studies, Aarhus University, Moesgård Allé 20, 8270 Højbjerg, Denmark
Felix Riede
Affiliation:
Department of Archaeology and Heritage Studies, Aarhus University, Moesgård Allé 20, 8270 Højbjerg, Denmark
Jesper Olsen
Affiliation:
Aarhus AMS Centre, Department of Physics and Astronomy, Aarhus University, Ny Munkegade 120, 8000 Aarhus C, Denmark
*
*Corresponding author. Email: [email protected].

Abstract

Only a limited number of radiometric dates for the Final Palaeolithic and the first half of the Mesolithic are available from the southeastern Baltic. This paper presents eight new Late Pleistocene/Early Holocene radiocarbon accelerator mass spectrometry (14C AMS) ages of osseous artifacts housed at the Kaliningrad Regional Museum of History and Art. These artifacts include one piece of worked reindeer (Rangifer tarandus) antler, three axes of the so-called Lyngby type, one bone point, one uniserial harpoon, one so-called bâton percé antler shaft, and one slotted bone. All the samples were successfully dated and yielded five Late Pleistocene and three Early Holocene ages, including the hitherto earliest age for human occupation in the Eastern Baltic. The dates include not only a surprisingly early date for a bone point (for this region), but also some dates that contradict expected ages based on traditional typological assessment. Our study significantly adds to the still small number of existing absolutely dated artifacts from the region and proposes new ways of viewing the Final Palaeolithic and Early Mesolithic chronology in the southeastern Baltic.

Type
Research Article
Copyright
© 2019 by the Arizona Board of Regents on behalf of the University of Arizona 

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References

REFERENCES

Andersen, SH. 1981. Ertebøllekunst. Nye østjyske fund af mønstrede Ertebølleoldsager. Kuml 1980:759.Google Scholar
Andersen, SH, Petersen, PV. 2009. Maglemosekulturens stortandede harpuner. Aarbøger for Nordisk Oldkyndighed og Historie 2005:741.Google Scholar
Bronk Ramsey, C. 2009. Bayesian analysis of radiocarbon dates. Radiocarbon 51(1):337360.Google Scholar
Clark, JGD, Thompson, MW. 1954. The groove and splinter technique of working antler in the Upper Paleolithic and Mesolithic, with special reference to the material from Star Carr. Prehistoric Society, Proceedings 19:148190.Google Scholar
Clausen, I. 2004. The reindeer antler axe of the Alleröd period from Klappholz LA 63, Kreis Schleswig-Flensburg/Germany. Is it a relict of the Federmesser, Bromme or Ahrensburg culture? In: Terberger T, Eriksen BV, editors. Hunters in a changing world. Environment and archaeology of the Pleistocene–Holocene Transition (c. 11000–9000 B.C.) in Northern Central Europe. Rahden: Verlag Marie Leidorf GmbH. p. 141164.Google Scholar
Cziesla, E, Pettitt, P. 2003. AMS-14C-Datierungen von Spätpaläolithischen und Mesolithischen Funden aus dem Bützsee (Brandenburg). Archäologisches Korrespondenzblatt 33:2138.Google Scholar
Cziesla, E, Masojć, M. 2007. The uniserially barbed harpoon from Węgliny (Wodra Valley, Lower Lusatia, Poland) and some cultural implications. In: Masojć M, Płonka T, Ginter B, Kozłowski SK, editors. Contributions to the Central European Mesolithic. Wrocław. p. 3341.Google Scholar
Drucker, DG, Bridault, A, Hobson, KA, Szuma, E, Bocherens, H. 2008. Can carbon-13 in large herbivores reflect the canopy effect in temperate and boreal ecosystems? Evidence from modern and ancient ungulates. Palaeogeography, Palaeoclimatology, Palaeoecology 266(1):6982.Google Scholar
Drucker, DG, Bridault, A, Cupillard, C, Hujic, A, Bocherens, H. 2011. Evolution of habitat and environment of red deer (Cervus elaphus) during the Late-glacial and early Holocene in eastern France (French Jura and the western Alps) using multi-isotope analysis (δ13C, δ15N, δ18O, δ34S) of archaeological remains. Quaternary International 245(2):268278.Google Scholar
Engel, C, La-Baume, W. 1937. Kulturen und Völker der Frühzeit im Preußenlande. Königsberg.Google Scholar
Fischer, A, Clemmensen, LB, Donahue, R, Heinemeier, J, Lykke-Andersen, H, Lysdahl, P, Fischer Mortensen, M, Olsen, J, Vang Petersen, P. 2013. Late Palaeolithic Nørre Lyngby – a northern outpost close to the west coast of Europe. Quartär 60:137162.Google Scholar
Gaerte, W. 1929. Urgeschichte Ostpreußens. Königsberg: Gräfe und Unzer.Google Scholar
Galiński, T. 2013. Typological, chronological and cultural verification of Pleistocene and early Holocene bone and antler harpoons and points from the southern Baltic zone. Przegląd Archeologiczny 61:93144.Google Scholar
Girininkas, A. 2009. Lietuvos Archeologija: Akmens amžius (1). Vilnius: Versus aureus.Google Scholar
Girininkas, A, Rimkus, T, Slah, G, Daugnora, L, Stančikaitė, M, Zabiela, G. 2016. Lyngby type artifacts of Lithuania in the context of the Stone Age in Europe: Multidisciplinary study. Arheologija un etnogrāfija 29:1330.Google Scholar
Groß, H. 1937a. Der erste sichere Fund eines paläolithischen Geräts in Ostpreußen. Mannus: Zeitschrift für Vorgeschichte 29:113118.Google Scholar
Groß, H. 1937b. Pollenanalytische Altersbestimmung einer ostpreußischen Lyngbyhacke und das absolute Alter der Lyngbykultur. Mannus: Zeitschrift für Vorgeschichte 29:109113.Google Scholar
Groß, H. 1938a. Auf den ältesten Spuren des Menschen in Altpreußen. Prussia 32(84139).Google Scholar
Groß, H. 1938b. Die bearbeiteten Rengeweihe Ostpreußens. Nachrichtenblatt für deutsche Vorzeit XIV:117124.Google Scholar
Groß, H. 1938c. Die ältesten Steinzeitfunde Altpreußens (Stand vom 1. 4. 1938). Altpreußen 3:8385.Google Scholar
Groß, H. 1939. Die subfossilen Rentierreste Ostpreußens. Schriften der Physikalisch-Ökonomischen Gesellschaft zu Königsberg in Preußen 71:79126.Google Scholar
Hogg, A, Southon, J, Turney, C, Palmer, J, Ramsey, CB, Fenwick, P, Boswijk, G, Büntgen, U, Friedrich, M, Helle, G, Hughen, K, Jones, R, Kromer, B, Noronha, A, Reinig, F, Reynard, L, Staff, R, Wacker, L. 2016a. Decadally resolved Lateglacial radiocarbon evidence from New Zealand Kauri. Radiocarbon 58(4):709733.Google Scholar
Hogg, A, Southon, J, Turney, C, Palmer, J, Bronk Ramsey, C, Fenwick, P, Boswijk, G, Friedrich, M, Helle, G, Hughen, K, Jones, R, Kromer, B, Noronha, A, Reynard, L, Staff, R, Wacker, L. 2016b. Punctuated shutdown of Atlantic meridional overturning circulation during Greenland Stadial 1. Scientific Reports 6:25902.Google Scholar
Ivanovaitė, L, Riede, F. 2018. The Final Palaeolithic hunter-gatherer colonisation of Lithuania in light of recent palaeoenvironmrntal research. Open Quaternary 4(4):121.Google Scholar
Knutsson, H, Knutsson, K, Molin, F, Zetterlund, P. 2016. From flint to quartz: organization of lithic technology in relation to raw material availability during the pioneer process of Scandinavia. Quaternary International 424:3257.Google Scholar
Kozłowski, SK. 2006. Mapping the Central/East European Terminal Palaeolithic/Earliest Mesolithic. Archaeologia Baltica 7:2935.Google Scholar
Lowe, JJ, Rasmussen, SO, Björck, S, Hoek, WZ, Steffensen, JP, Walker, MJC, Yu, ZC. 2008. Synchronisation of Palaeoenvironmental Events in the North Atlantic Region during the Last Termination: a revised protocol recommended by the INTIMATE Group. Quaternary Science Reviews 27(1–2):617.Google Scholar
Meadows, J, Eriksen, BV, Zagorska, I, Dreves, A, Simpson, J. 2014. Dating Late Paleolithic harpoons from Lake Lubāns, Latvia. Radiocarbon 56(2):581589.Google Scholar
Okulicz, J. 1973. Pradzieje ziem pruskich od późnego paleolitu do VII w. n. e. Wrocław, Warsaw, Kraków, Gdańsk.Google Scholar
Olsen, J, Tikhomirov, D, Grosen, C, Heinemeier, J, Klein, M. 2016. Radiocarbon analysis on the new AARAMS 1MV Tandetron. Radiocarbon 59:905913.Google Scholar
Płonka, T. 2003. The portable art of Mesolithic Europe. Wrocław: Wydawnictwo Uniwersytetu Wrocławskiego.Google Scholar
Płonka, T. 2017. Ornamented hunting weapons from the Late Palaeolithic in the Southern Baltic basin. In: Mărgărit M, Boroneanţ A, editors. From hunter-gatherers to farmers: Human adaptations at the end of the Pleistocene and the first part of the Holocene: Papers in honour of Clive Bonsall. Editura Cetatea de Scaun, Targovişte, Romania. p. 217228.Google Scholar
Rasmussen, SO, Bigler, M, Blockley, SP, Blunier, T, Buchardt, SL, Clausen, HB, Cvijanovic, I, Dahl-Jensen, D, Johnsen, SJ, Fischer, H, Gkinis, V, Guillevic, M, Hoek, WZ, Lowe, JJ, Pedro, JB, Popp, T, Seierstad, IK, Steffensen, JP, Svensson, AM, Vallelonga, P, Vinther, BM, Walker, MJC, Wheatley, JJ, Winstrup, M. 2014. A stratigraphic framework for abrupt climatic changes during the Last Glacial period based on three synchronized Greenland ice-core records: refining and extending the INTIMATE Event stratigraphy. Quaternary Science Reviews 106:1428.Google Scholar
Reimer, PJ, Bard, E, Bayliss, A, Beck, JW, Blackwell, PG, Bronk Ramsey, C, Buck, CE, Cheng, H, Edwards, RL, Friedrich, M, Grootes, PM, Guilderson, TP, Haflidason, H, Hajdas, I, Hatté, C, Heaton, TJ, Hoffmann, DL, Hogg, AG, Hughen, KA, Kaiser, KF, Kromer, B, Manning, SW, Niu, M, Reimer, RW, Richards, DA, Scott, EM, Southon, JR, Staff, RA, Turney, CSM, van der Plicht, J. 2013. IntCal13 and Marine13 radiocarbon age calibration curves 0–50,000 years cal BP. Radiocarbon 55(4):18691887.Google Scholar
Riede, F, Edinborough, K. 2012. Bayesian radiocarbon models for the cultural transition during the Allerød in southern Scandinavia. Journal of Archaeological Science 39(3):744756.Google Scholar
Rimantienė, R. 1996. Akmens amžius Lietuvoje: Žiburio leidykla, Vilnius Google Scholar
Rimantienė, R. 1971. Paleolit i mezolit Litvy. Akademiia nauk Litovskoi, Vilnius.Google Scholar
Šatavičius, E. 2001. Vėlyvojo paleolito kultūros ir jų likimas ankstyvajame mezolite. Daktaro disertacija humanitariniai mokslai, istorija (05H). Vilnius.Google Scholar
Siemaszko, J. 1999. Stone age settlement in the Lega valley microregion of north-east Poland. European Journal of Archaeology 2(3):293312.Google Scholar
Sommer, RS, Kalbe, J, Ekström, J, Benecke, N, Liljegren, R. 2014. Range dynamics of the reindeer in Europe during the last 25,000 years. Journal of Biogeography 41(2):298306.Google Scholar
Stevens, RE, Jacobi, R, Street, M, Germonpré, M, Conard, NJ, Münzel, SC, Hedges, REM. 2008. Nitrogen isotope analyses of reindeer (Rangifer tarandus), 45,000 BP to 9,000 BP: Palaeoenvironmental reconstructions. Palaeogeography, Palaeoclimatology, Palaeoecology 262(1):3245.Google Scholar
Šturms, E. 1970. Die Steinzeitlichen Kulturen des Baltikums. Bonn: Rudolf Habelt GmbH. 298 p.Google Scholar
Szymczak, K. 1995. Epoka kamienia Polski Północno-Wschodniej na tle Środkowoeuropejskim. Warszawa.Google Scholar
Timofeev, VI, Filippov, AK. 1981. Three reindeer artifacts from the South-East of the Baltic Region. Soviet Archaeology 2:251254.Google Scholar
Ukkonen, P, Lõugas, L, Zagorska, I, Lukševica, L, Lukševics, E, Daugnora, L, Jungner, H. 2006. History of the reindeer (Rangifer tarandus) in the eastern Baltic region and its implications for the origin and immigration routes of the recent northern European wild reindeer populations. Boreas 35(2):222230.Google Scholar