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EUBAR: A Database of 14C Measurements for the European Bronze Age. A Bayesian Analysis of 14C-Dated Archaeological Contexts from Northern Italy and Southern France

Published online by Cambridge University Press:  09 February 2016

Giacomo Capuzzo*
Affiliation:
Quantitative Archaeology Lab (LAQU), Department of Prehistory, Autonomous University of Barcelona, Bellaterra, Spain Weizmann Institute–Max Planck Center for Integrative Archaeology, D-REAMS Radiocarbon Laboratory, Weizmann Institute of Science, Rehovot, Israel
Elisabetta Boaretto
Affiliation:
Weizmann Institute–Max Planck Center for Integrative Archaeology, D-REAMS Radiocarbon Laboratory, Weizmann Institute of Science, Rehovot, Israel
Juan A Barceló
Affiliation:
Quantitative Archaeology Lab (LAQU), Department of Prehistory, Autonomous University of Barcelona, Bellaterra, Spain
*
3. Corresponding author. Email: [email protected].

Abstract

The chronological framework of European protohistory is mostly a relative chronology based on typology and stratigraphic data. Synchronization of different time periods suffers from a lack of absolute dates; therefore, disagreements between different chronological schemes are difficult to reconcile. An alternative approach was applied in this study to build a more precise and accurate absolute chronology. To the best of our knowledge, we have collected all the published 14C dates for the archaeological sites in the region from the Ebro River (Spain) to the Middle Danube Valley (Austria) for the period 1800–750 BC. The available archaeological information associated with the 14C dates was organized in a database that totaled more than 1600 14C dates. In order to build an accurate and precise chronology, quality selection rules have been applied to the 14C dates based on both archaeological context and analytical quality. Using the OxCal software and Bayesian analysis, several 14C time sequences were created following the archaeological data and different possible scenarios were tested in northern Italy and southern France.

Type
Statistics and Modeling
Copyright
Copyright © 2014 by the Arizona Board of Regents on behalf of the University of Arizona 

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References

Arnold, B. 2012. Gender, temporalities, and periodization in Early Iron Age West-Central Europe. Social Science History 36(1):85112.Google Scholar
Barceló, JA. 2008. La seqüència crono-cultural de la prehistòria catalana. Anàlisi estadística de les datacions radiomètriques. Cypsela 17:6588.Google Scholar
Bayes, TR. 1763. An essay towards solving a problem in the doctrine of chances. Philosophical Transactions of the Royal Society 53:370418.Google Scholar
Bayliss, A, Bronk Ramsey, C, van der Plicht, J, Whittle, A. 2007. Bradshaw and Bayes: towards a timetable for the Neolithic. Cambridge Archaeological Journal 17(S1):128.Google Scholar
Bernabò Brea, M, Cardarelli, A, Cremaschi, M, editors. 1997. Le Terramare. La più antica civiltà padana, catalogo della mostra (Modena 1997). Milan: Catalogo della Mostra.Google Scholar
Boaretto, E. 2007. Determining the chronology of an archaeological site using radiocarbon: minimizing uncertainty. Israel Journal of Earth Science 56(2–4):207–16.Google Scholar
Boaretto, E. 2009. Dating materials in good archaeological contexts: the next challenge for radiocarbon analysis. Radiocarbon 51(1):275–82.Google Scholar
Bronk Ramsey, C. 2009a. Bayesian analysis of radiocarbon dates. Radiocarbon 51(1):337–60.CrossRefGoogle Scholar
Bronk Ramsey, C. 2009b. Dealing with outliers and offsets in radiocarbon dating. Radiocarbon 51(3): 1023–45.Google Scholar
Brun, P. 1984. La Civilisation des Champs d'Urnes, etude critique dans le bass in parisien. Paris: Documents d'Archéologie Française 4.Google Scholar
Brun, P, Mordant, C, editors. 1988. Le groupe Rhin-Suisse-France orientale et la notion de civilization des Champs d'Urnes, Actes du colloque international de Nemours 1986. Paris: Mémoires du Musée de Préhistoire d'Ile-de-France 1.Google Scholar
Brun, P, Chaume, B, Dhennequin, L, Quilliec, B. 2009. Le passage de l'âge du Bronze à l'âge du Fer … au fil de l'épée. In: Rouliere-Lambert, M-J, Daubigney, A, Milcent, P-Y, Talon, M, Vital, J, editors. De l'âge du Bronze à l'âge du Fer en France et en Europe occidentale (Xe-VIIe siècle av. J.-C.), La moyenne vallée du Rhône aux âges du Fer, actualité de la recherche. Actes du XXXe colloque international de l'A.F.E.A.F. (Saint-Romain-en-Gal, 26–28 mai 2006). Revue Archéologique de l'Est 27ème supplement. p 477–85.Google Scholar
Buck, CE, Cavanagh, WG, Litton, CD. 1996. Bayesian Approach to Interpreting Archaeological Data. Chichester: Wiley.Google Scholar
Campmajo, P. 1983. Le site protohistorique de Llo (Pyrénées Orientales). Perpignan: Université de Perpignan.Google Scholar
Carozza, L. 1994. De l'Age du bronze a l'Age du fer en Albigeois. Toulouse: Archives d'Ecologie Préhistorique 13.Google Scholar
Cattani, M. 2009. L'ansa cilindro-retta come indicatore delle interazioni culturali nel Bronzo Recente. In: Cattani M, dir. Atti della Giornata di studi “La Romagna nell'età del Bronzo,” Ravenna-Solarolo 19 settembre 2008. IpoTESI di Preistoria 2(1):250–4.Google Scholar
Cattani, M. 2011. Contribute alla definizione della fase iniziale della Media età del Bronzo in Italia centro-settentrionale: le impugnature con appendice ad ascia. IpoTESI di Preistoria 4(2):6387.Google Scholar
Cattani, M, Marchesini, M, Marvelli, S, editors. 2010. Paesaggio ed economia nell'età del Bronzo, la pianura bolognese tra Samoggia e Panaro. Bologna: Università degli Studi di Bologna.Google Scholar
Cocchi Genick, D, editor. 2004. L'età del bronzo recente in Italia. Atti del Congresso Nazionale, Lido di Camaiore 26–29 ottobre 2000. Viareggio.Google Scholar
Cremaschi, M. 2004. Le datazioni radiocarboniche. In: Cremaschi, M, Bernabo' Brea, MA, editors. Il villaggio della terramara di Santa Rosa di Poviglio. Scavi 1987–1992. Firenze: Origines. p 693702.Google Scholar
David-Elbiali, M. 2009. Des femmes et des hommes dans l'arc alpin occidental entre le XIIe et le VIIe siècle av. J.-C. In: Rouliere-Lambert, M-J, Daubigney, A, Milcent, P-Y, Talon, M, Vital, J, editors. De l'âge du Bronze à l'âge du Fer en France et en Europe occidentale (Xe-VIIe siècle av. J.-C.), La moyenne vallée du Rhône aux âges du Fer, actualité de la recherche. Actes du XXXe colloque international de l'A.F.E.A.F. (Saint-Romain-en-Gal, 26–28 mai 2006). Revue Archéologique de l'Est 27ème supplement. p 343–60.Google Scholar
David-Elbiali, M, David, W. 2009. À la suite de Jacques-Pierre Millotte, l'actualité des recherches en typologie sur l'âge du Bronze, le Bronze ancien et le début du Bronze moyen: cadre chronologique et liens culturels entre l'Europe nord-alpine occidentale, le monde danubien et l'Italie du Nord. In: Annick, R, Barral, P, Daubigney, A, Kaenel, G, Mordant, C, Piningre, J-F, editors. L'isthme européen Rhin-Saône-Rhône dans la Protohistoire. Approches nouvelles en hommage à Jacques-Pierre Millotte, Actes du colloque (Besançon, 16–18 octobre 2006). Paris. p 311–40.Google Scholar
David-Elbiali, M, Moinat, P. 2005. Le Bronze final de la Suisse occidentale: révision du cadre chronotypologique, grâce aux découvertes de la nécropole de Lausanne-Vidy (canton de Vaud, Suisse). Bulletin de la Société Préhistorique Française 102(3):613–24.Google Scholar
Déchelette, J. 1910. Manuel d'archéologie prehistoric celtique et gallo-romaine. Paris: A. Picard.Google Scholar
De Marinis, RC. 1999. Towards a relative and absolute chronology of the Bronze Age in Northern Italy. Notizie Archeologiche Bergomensi 7:23100.Google Scholar
De Marinis, RC. 2005. Cronologia relativa, cross-dating e datazioni cronometriche tra Bronzo Finale e Primo Ferro: qualche spunto di riflessione metodologica. In: Bartoloni, G, Delfino, F. Oriente e Occidente: metodi e discipline a confronto. Riflessioni sulla cronologia dell'età del Ferro italiana. Atti dell'Incontro di Studio, Roma 30–31 ottobre 2003. Pisa. p 1552.Google Scholar
Dergachev, VA, Raspopov, OM, Van Geel, B, Zaitseva, GI. 2004. The ‘Sterno-Etrussia’ geomagnetic excursion around 2700 BP and changes of solar activity, cosmic ray intensity and climate. Radiocarbon 46(2):661–81.Google Scholar
Gaucher, G. 1992. Les subdivisions du Bronze final. Bulletin de la Société Préhistorique française 82(2):5164.Google Scholar
Giardino, C. 1995. The West Mediterranean between the 14th and the 8th Centuries B.C. Mining and Metallurgical Spheres. Oxford: BAR International Series 612. Oxford: Archaeopress.Google Scholar
Hatt, JJ. 1955a. Chroniques de Protohistorie, I. Bulletin de la Société Préhistorique Française 52(1–2):96101.Google Scholar
Hatt, JJ. 1955b. Chroniques de Protohistorie, II. Bulletin de la Société Préhistorique Française 52(1–2):397400.Google Scholar
Hatt, JJ. 1958. Chroniques de Protohistoire, IV. Nouveau projet de chronologie pour l'âge du Bronze en France. Bulletin de la Société Préhistorique Française 55(5–6):304–6.Google Scholar
Janin, T. 1992. L'évolution du Bronze final IIIb et la transition Bronze-Fer en Languedoc occidental d'après la culture matérielle et les necropolis. Documents d'Archéologie Méridionale 15:243–59.Google Scholar
Lachenal, T. 2010. L'age du bronze en Provence: productions ceramiques et dynamiques culturelles [PhD dissertation]. Aix-Marseille University.Google Scholar
Lachenal, T. 2011. Entre Alpes et Méditerranée. Productions céramiques et dynamiques culturelles de la fin de l'âge du bronze en Provence (X–IX siècles av. J.-C.). Quaderns de prehistòria i arqueologia de Castelló 29:231–67.Google Scholar
Milcent, PY. 2009. Le passage de l'âge du Bronze à l'âge du Fer en Gaule au miroir des élites sociales: une crise au VIIIe siècle av. J.-C.?. In: Rouliere-Lam-bert, M-J, Daubigney, A, Milcent, P-Y, Talon, M, Vital, J, editors. De l'âge du Bronze à l'àge du Fer en France et en Europe occidentale (Xe-VIIe siècle av. J.-C.), La moyenne vallée du Rhône aux âges du Fer, actualité de la recherche. Actes du XXXe colloque international de l'A.F.E.A.F. (Saint-Romain-en-Gal, 26–28 mai 2006). Revue Archéologique de l'Est 27ème supplement. p 453–76.Google Scholar
Millotte, J-P. 1970. Précis de proto-histoire européenne. Paris: A. Colin.Google Scholar
Mook, WG, Streurman, HJ. 1983. Physical and chemical aspects of radiocarbon dating. In: Mook, WG, Waterbolk, HT, editors. Proceedings, Groningen Symposium 14C and Archaeology. PACT 8:3155.Google Scholar
Müller-Karpe, H. 1959. Beiträge zur Chronologie der urnenfelderzeit nördlich und südlich der Alpen. Römisch-Germanisches Forschungen 22. Berlin: De Gruyter.Google Scholar
Nijboer, AJ, van der Plicht, H, Bietti Sestieri, AM, De Santis, A. 1999–2000. A High chronology for the Early Iron Age in central Italy. Paleohistoria 41–42:163–76.Google Scholar
Nijboer, AJ, van der Plicht, H. 2008. The Iron Age in the Mediterranean: recent radiocarbon research at the University of Groningen. In: Brandherm, D, Trachsel, M, editors. Proceedings of the XV World Congress (Lisbon, 4–9 September 2006), International Union for Prehistoric and Protohistorie Sciences, A New Dawn for the Dark Age? Shifting Paradigms in Mediterranean Iron Age Chronology. Oxford: BAR International Series 1871. Oxford: Archaeopress. p 103–18.Google Scholar
Nisbet, R. 2004. Alcune considerazioni sulla Preistoria del Pinerolese: Roc del Col nel contesto alpino. In: Bertone, A, Fozzati, L, editors. La civiltà di Viverone. La conquista di una nuova frontiera nell'Europa del II Millennio a.C. Candelo: Eventi & Progetti. p 109–24.Google Scholar
Olivier, L. 1999. The Hochdorf ‘princely’ grave and the question of the nature of archaeological funerary assemblages. In: Murray, T, editor. Time and Archaeology. London: Routledge. p 109–38.Google Scholar
Pacciarelli, M. 2005. 14C e correlazioni con le dendrodate nordalpine: elementi per una cronologia assoluta del Bronzo Finale 3 e del primo Ferro dell'Italia peninsulare. In: Bartoloni, G, Delfino, F. Oriente e Occidente: metodi e discipline a confronto. Riflessioni sulla cronologia dell'età del Ferro italiana. Pisa: Istituti Editoriali e Poligrafici Internazionali. p 8190.Google Scholar
Pare, C. 1996. Chronology in Central Europe at the end of the Bronze Age. In: Randsborg, K, editor. Absolute Chronology. Archaeological Europe 2500–500 BC. Acta Archaeologica 67:99120.Google Scholar
Pare, C. 1998. Beiträge zum Übergang von der Bronze-und Eisenzeit in Mitteleuropa. Teil I - Grundzüge der Chronologie im Östtlichen Mitteleuropa (11.–8. jahrhundert v.Chr.). Jahrbuch der Römisch-Germanischen Zentralmuseum Mainz 45(1):293433.Google Scholar
Peroni, R. 1990. Trent'anni dopo. In: Belardelli, C, Giardino, C, Malizia, A, editors. L'Europa a sud e a nord delle Alpi alle soglie della svolta protourbana. Treviso: Ed. Unigrafica-Ostalpenkomitee. p 11–4.Google Scholar
Peroni, R. 1995. Stand und Aufgaben der Urnenfelderforschung in Italien. In: Beiträge zur Urnenfelderzeit nördlich und südlich der Alpen. Ergebnisse eines Kolloquiums. Mainz: Monographien des Römisch-Germanischen Zentralmuseums Mainz 35. p 225–37.Google Scholar
Peroni, R. 1996. L'Italia alle soglie della storia. Roma-Bari: Editori Laterza.Google Scholar
Petrie, FWM. 1899. Sequences in prehistoric remains. Journal of the Anthropological Institute 29:295301.Google Scholar
Regev, J, de Miroschedji, P, Greenberg, R, Braun, E, Greenhut, Z, Boaretto, E. 2012. Chronology of the Early Bronze Age in the southern Levant: new analysis for a high chronology. Radiocarbon 54(3–4):525–66.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):1869–87.Google Scholar
Reinecke, P. 1899. Studien zur Chronologie des ungarlandischen Bronzealters. I. Teil. Prahistorisches aus Ungarn und den Nachbarlandern. Beiblatt der Ethnologischen Mitteilungen aus Ungarn 1(1).Google Scholar
Reinecke, P. 1900. Brandgraber vom Beginn der Hallstattzeit aus den ostlichen Alpenlandern und die Chronologie des Grabfeldes von Hallstatt. Mitteilungen der Anthropologischen Gesellschaft Wien 30:4452.Google Scholar
Reinecke, P. 1902. Zur Chronologie der 2. Halfte des Bronzealters in Sud- und Norddeutschland. Korrespondenzblatt der deutschen Gesellschaft fur Anthropologic, Ethnologie und Urgeschichte 33(3):1732.Google Scholar
Reinecke, P. 1965. Mainzer Aufsätze zur Chronologie der Bronze- und Eisenzeit. Bonn: Habelt.Google Scholar
Speranza, A, van der Plicht, J, van Geel, B. 2000. Improving the time control of the Subboreal/Subatlantic transition in a Czech peat sequence by 14C wiggle-matching. Quaternary Science Reviews 19(16):1589–604.Google Scholar
Sperber, L. 1987. Untersuchungen zur Chronologie der Urnenfelderkultur im nördlichen Alpenvorland von der Schweiz bis Oberösterreich. Bonn: Habelt.Google Scholar
Swindles, GT, Plunkett, G, Roe, HM. 2007. A delayed climatic response to solar forcing at 2800 cal. BP: multiproxy evidence from three Irish peatlands. The Holocene 17(2):177–82.Google Scholar
Tinner, W, Lotter, AF, Ammann, B, Conedera, M, Hubschmid, P, van Leeuwen, JFN, Wehrli, M. 2003. Climatic change and contemporaneous land-use phases north and south of the Alps 2300 BC to 800 AD. Quaternary Science Reviews 22(14): 1447–60.Google Scholar
Trachsel, M. 2004. Untersuchungen zur relativen und absoluten Chronologie der Hallstattzeit. Bonn: Habelt.Google Scholar
van Geel, B, Buurman, J, Waterbolk, HT. 1996. Archaeological and palaeoecological indications of an abrupt climate change in The Netherlands, and evidence for climatological teleconnections around 2650 BP. Journal of Quaternary Science 11(6):451–60.Google Scholar
van Geel, B, van der Plicht, J, Kilian, MR, Klaver, ER, Kouwenberg, JHM, Renssen, H, Reynaud-Farrera, I, Waterbolk, HT. 1998. The sharp rise of Δ14C ca. 800 cal BC: possible causes, related climatic teleconnections and the impact on human environments. Radiocarbon 40(1):535–50.Google Scholar
van der Plicht, J, van Geel, B, Bohncke, SJP, Bos, JAA, Blaauw, M, Speranza, AOM, Muscheler, R, Bjorck, S. 2004. The Preboreal climate reversal and a subsequent solar-forced climate shift. Journal of Quaternary Science 19(3):263–9.Google Scholar
van der Plicht, J, Bruins, HJ, Nijboer, AJ. 2009. The Iron Age around the Mediterranean: a High chronology perspective from the Groningen Radiocarbon Database. Radiocarbon 51(1):213–42.Google Scholar
Whitehouse, R. 1993. Datazioni radiocarboniche da Fabbrica dei Soci (Villabartolomea-VR). In: De Guio, A, Whitehouse, R, Wilkins, J, editors. Progetto Alto-Medio Polesine-Basso Veronese: sesto rapporto. Quaderni di Archeologia del Veneto IX:175–6.Google Scholar
Whitehouse, R. 1994. Radiocarbon dates from Fondo Paviani (VR). In: De Guio, A, Whitehouse, R, Wilkins, J, editors. Il progetto Alto-Medio Polesine-Basso Veronese: settimo rapporto. Quaderni di Archeologia del Veneto X:126.Google Scholar
Whitehouse, R. 1997. Radiocarbon dating and the Alto-Medio Polesine-Basso Veronese Project. In: De Guio, A, Whitehouse, R, Wilkins, J, editors. Il progetto Alto-Medio Polesine-Basso Veronese: nono rapporto. Quaderni di Archeologia del Veneto XIII: 165–7.Google Scholar