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Interpreting Radiocarbon Dates from the Paleolithic Layers of Theopetra Cave in Thessaly, Greece

  • Yorgos Facorellis (a1), Panagiotis Karkanas (a2), Thomas Higham (a3), Fiona Brock (a3), Maria Ntinou (a4) and Nina Kyparissi-Apostolika (a2)...
Abstract

Theopetra Cave is a unique prehistoric site for Greece, as the Middle and Upper Paleolithic, Mesolithic, and Neolithic periods are present here, bridging the Pleistocene with the Holocene. During the more than 20 yr of excavation campaigns, charcoal samples from hearths suitable for 14C dating were collected from all anthropogenic layers, including the Paleolithic ones. Most of the samples were initially dated using the ABA chemical pretreatment protocol in the Laboratory of Archaeometry of NCSR Demokritos, Greece, and the Radiocarbon Dating and Cosmogenic Isotopes Laboratory of the Weizmann Institute of Science, Israel. The 14C results, which were not always consistent versus depth, showed that the earliest limit of human presence is ∼50,000 yr BP, thus reaching the age limits of the 14C dating method. However, 10 TL-dated burnt flint specimens unearthed from the lower part of the Middle Paleolithic sequence of the cave gave ages ranging between ∼110 and 135 kyr ago. These results are in disagreement with the 14C dates, as they support a much later date for these layers. In order to clarify the situation further, charcoal samples originating from hearths were conventionally dated in the Laboratory of Archaeometry of NCSR Demokritos using the ABA pretreatment. Additionally, hand-picked charcoal fragments also underwent 14C dating by AMS in the Oxford Radiocarbon Accelerator Unit using the acid-base wet oxidation (ABOX-SC) pretreatment protocol. The 14C dates from the cave's Paleolithic layers obtained by both pretreatment protocols suggest a probable charcoal diagenesis affecting the 14C results of these very old samples. However, the dates obtained with ABOX-SC pretreatment are considered more reliable and in the younger stratigraphic part produced consistent results with the TL dating.

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Corresponding author
Corresponding author. Email: yfacorel@teiath.gr.
References
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Alon, D, Mintz, G, Cohen, I, Weiner, S, Boaretto, E. 2002. The use of Raman spectroscopy to monitor the removal of humic substances from charcoal: quality control for 14C dating of charcoal. Radiocarbon 44(1):111.
Ascough, PL, Bird, MI, Francis, SM, Thornton, B, Mid-wood, AJ, Scott, AC, Apperley, D. 2011. Variability in oxidative degradation of charcoal: influence of production conditions and environmental exposure. Geochimica et Cosmochimica Acta 75(9):2361–78.
Bird, MI, Ayliffe, LK, Fifield, LK, Turney, CSM, Cresswell, RG, Barrows, TT, David, B. 1999. Radiocarbon dating of “old” charcoal using a wet oxidation, stepped-combustion procedure. Radiocarbon 41(2):127–40.
Bird, MI, Fifield, LK, Santos, GM, Beaumont, PB, Zhou, Y, di Tada, ML, Hausladen, PA. 2003. Radiocarbon dating from 40 to 60 ka BP at Border Cave, South Africa. Quaternary Science Reviews 22(8–9):943–7.
Brock, F, Higham, TFG. 2009. AMS radiocarbon dating of Paleolithic-aged charcoal from Europe and the Mediterranean Rim using ABOX-SC. Radiocarbon 51(2):839–46.
Brock, F, Higham, T, Ditchfield, P, Bronk Ramsey, C. 2010. Current pretreatment methods for AMS radiocarbon dating at the Oxford Radiocarbon Accelerator Unit (ORAU). Radiocarbon 52(1):103–12.
Bronk Ramsey, C. 2009. Bayesian analysis of radiocarbon dates. Radiocarbon 51(1):337–60.
Cohen-Ofri, I, Weiner, L, Boaretto, E, Mintz, G, Weiner, S. 2006. Modern and fossil charcoal: aspects of structure and diagenesis. Journal of Archaeological Science 33(3):428–39.
Cohen-Ofri, I, Popovitz-Biro, R, Weiner, S. 2007. Structural characterization of modern and fossilized charcoal produced in natural fires as determined by using electron energy loss spectroscopy. Chemistry - A European Journal 13(8):2306–10.
de Vries, H, Barendsen, GW. 1953. Radio-carbon dating by a proportional counter filled with carbon dioxide: Physica 19:9871003.
Facorellis, Y. 1996. Study of the conditions and the parameters for high precision dating with 14C [PhD thesis]. University of Patras.
Facorellis, Y, Maniatis, Y. 1999. The potential and accuracy of radiocarbon dating in the Palaeolithic period. In: Adam, E, Bailey, G, Panagopoulou, E, Perles, C, Zachos, K, editors. The Palaeolithic Archaeology of Greece and Adjacent Areas. Proceedings of the ICOPAG Conference, Ioannina, September 1994. London: British School at Athens Studies 3. p 179–89.
Facorellis, Y, Maniatis, Y. 2000. 14C evidence of 50,000 years of human presence in the cave of Theopetra. In: In: Kyparissi-Apostolika, N, editor. Proceedings of the International Conference “The Cave of Theopetra - Twelve Years of Excavations and Research,” 6–7 November 1998, Trikala, Greece. Athens. p 5368.
Facorellis, Y, Kyparissi-Apostolika, N, Maniatis, Y. 2001. The cave of Theopetra, Kalambaka: radiocarbon evidence for 50,000 years of human presence. Radiocarbon 43(2B):975–94.
Higham, TFG, Barton, H, Turney, CSM, Barker, G, Bronk Ramsey, C, Brock, F. 2009a. Radiocarbon dating of charcoal from tropical sequences: results from the Niah Great Cave, Sarawak and their broader implication. Journal of Quaternary Science 24(2):189–97.
Higham, TFG, Brock, F, Peresani, M, Broglio, A, Wood, R, Douka, K. 2009b. Problems with radiocarbon dating the Middle to Upper Palaeolithic transition in Italy. Quaternary Science Reviews 28(13–14):1257–67.
Karkanas, P. 1999. Lithostratigraphy and micromorphology of Theopetra cave deposits, Thessaly, Greece: some preliminary results. In: Adam, E, Bailey, G, Panagopoulou, E, Perles, C, Zachos, K, editors. The Palaeolithic Archaeology of Greece and Adjacent Areas. Proceedings of the ICOPAG Conference, Ioannina, September 1994. London: British School at Athens Studies 3. p 240–51.
Karkanas, P. 2001. Site formation processes in Theopetra cave: a record of climatic change during the Late Pleistocene and Early Holocene in Thessaly, Greece. Geoarchaeology 16(4):373–99.
Karkanas, P, Kyparissi-Apostolika, N, Bar-Yosef, O, Weiner, S. 1999. Mineral assemblages in theopetra, greece: a framework for understanding diagenesis in a prehistoric cave. Journal of Archaeological Science 26(9):1171–80.
Kyparissi-Apostolika, N. 1998. The significance of Theopetra cave for Greek prehistory. In: Otte, M, editor. Préhistoire d'Anatolie Genèse de deux mondes. Actes du colloque international, Liège, 28 April–3 May 1997. ERAUL 85 p 241–52.
Kyparissi-Apostolika, N. 1999. The Palaeolithic deposits of Theopetra Cave in Thessaly (Greece). In: Adam, E, Bailey, G, Panagopoulou, E, Perles, C, Zachos, K, editors. The Palaeolithic Archaeology of Greece and Adjacent Areas. Proceedings of the ICOPAG Conference, Ioannina, September 1994. London: British School at Athens Studies 3. p 232–9.
Maniatis, Y, Malamidou, D, Koukouli-Chryssanthaki, H, Facorellis, Y. 2010. Radiocarbon dating of the Amphipolis bridge in northern Greece, maintained and functioned for 2500 years. Radiocarbon 52(1):4163.
Ntinou, M, Kyparissi-Apostolika, N. 2008. The Pleistocene-Holocene charcoal record from Theopetra cave, Thessaly, Greece: implications for vegetation, climate and human use. In: Damblon, F, Court-Picon, M, editors. Charcoal and Microcharcoal. Continental and Marine Records. Abstracts and Programme 4th International Meeting of Anthracology, Brussels 8–13 September 2008, Geological Survey of Belgium Professional Papers 303-2008/1. p 105.
Panagopoulou, E. 1999. The Theopetra Middle Palaeolithic assemblages: their relevance to the Middle Palaeolithic of Greece and adjacent areas. In: Adam, E, Bailey, G, Panagopoulou, E, Perles, C, Zachos, K, editors. The Palaeolithic Archaeology of Greece and Adjacent Areas. Proceedings of the ICOPAG Conference, Ioannina, September 1994. London: British School at Athens Studies 3. p 252–65.
Panagopoulou, E. 2000. The Middle Palaeolithic lithic assemblages of Theopetra Cave: technological evolution in the Upper Pleistocene. In: Kyparissi-Apostolika, N, editor. Proceedings of the International Conference “The Cave of Theopetra - Twelve Years of Excavations and Research,” 6–7 November 1998, Trikala, Greece. p 139–62.
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, T, 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.
Santos, GM, Bird, MI, Fifield, LK, Parenti, F, Guidon, N, Hausladen, PA. 2003. The controversial antiquity of the peopling of the Americas: a review of the chronology of the lowest occupation layer in the Pedra Furada Rock Shelter, Piauí, Brazil. Quaternary Science Reviews 22(21–22):2303–10.
Tsartsidou, G. 2013. Flora and people at the Paleolithic Cave of Theopetra, Thessaly, Greece. Presented at the 114th International Meeting of the Archaeological Institute of America. Seattle 3–6 January 2013.
Turney, CSM, Bird, MI, Fifield, LK, Roberts, RG, Smith, M, Dortch, CE, Grün, R, Lawson, E, Ayliffe, LK, Miller, GH, Dortch, J, Cresswell, RG. 2001. Early human occupation at Devil's Lair, Southwestern Australia 50,000 years ago. Quaternary Research 55(1):313.
Valladas, H, Mercier, N, Froget, L, Joron, J-L, Reyss, J-L, Karkanas, P, Panagopoulou, E, Kyparissi-Apostolika, N. 2007. TL age-estimates for the Middle Palaeolithic layers at Theopetra cave (Greece). Quaternary Geochronology 2(1–4):303–8.
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Radiocarbon
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