Hostname: page-component-586b7cd67f-2plfb Total loading time: 0 Render date: 2024-11-25T20:57:57.188Z Has data issue: false hasContentIssue false

King David's City at Khirbet Qeiyafa: Results of the Second Radiocarbon Dating Project

Published online by Cambridge University Press:  23 February 2016

Yosef Garfinkel*
Affiliation:
Institute of Archaeology, The Hebrew University of Jerusalem, Israel
Katharina Streit
Affiliation:
Institute of Archaeology, The Hebrew University of Jerusalem, Israel
Saar Ganor
Affiliation:
Israel Antiquities Authority, Rockefeller Museum, Jerusalem, Israel
Paula J Reimer
Affiliation:
School of Geography, Archaeology and Palaeoecology, Queen's University Belfast, UK
*
2. Corresponding author. Email: garfinkel@mscc.huji.ac.il.

Abstract

Seventeen samples of burnt olive pits discovered inside a jar in the destruction layer of the Iron Age city of Khirbet Qeiyafa were analyzed by accelerator mass spectrometry (AMS) radiocarbon dating. Of these, four were halved and sent to two different laboratories to minimize laboratory bias. The dating of these samples is ~1000 BC. Khirbet Qeiyafa is currently the earliest known example of a fortified city in the Kingdom of Judah and contributes direct evidence to the heated debate on the biblical narrative relating to King David. Was he the real historical ruler of an urbanized state-level society in the early 10th century BC or was this level of social development reached only at the end of the 8th century BC? We can conclude that there were indeed fortified centers in the Davidic kingdom from the studies presented. In addition, the dating of Khirbet Qeiyafa has far-reaching implications for the entire Levant. The discovery of Cypriot pottery at the site connects the 14C datings to Cyprus and the renewal of maritime trade between the island and the mainland in the Iron Age. A stone temple model from Khirbet Qeiyafa, decorated with triglyphs and a recessed doorframe, points to an early date for the development of this typical royal architecture of the Iron Age Levant.

Type
Articles
Copyright
Copyright © 2015 The Arizona Board of Regents on behalf of the University of Arizona 

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

Brock, F, Higham, TFG, 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.Google Scholar
Bronk Ramsey, C. 1995. Radiocarbon calibration and analysis of stratigraphy: the OxCal program. Radiocarbon 37(2):425–30.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 radiometric datings. Radiocarbon 51(3):1023–45.Google Scholar
Bruins, HJ, van der Plicht, J, Mazar, A, Bronk Ramsey, C, Manning, SW. 2005. The Groningen radiocarbon series from Tel-Rehov: OxCal Bayesian computations for the Iron IB-IIA boundary and Iron IIA destruction levels. In: Levy, TE, Higham, TFG, editors. The Bible and Radiocarbon Dating: Archaeology, Text and Science. London: Equinox. p 271–93.Google Scholar
Fantalkin, A. 2001. Low chronology and Greek Proto-Geometric pottery in the southern Levant. Levant 33(1):117–25.Google Scholar
Fantalkin, A, Finkelstein, I, Piasetzky, E. 2011. Iron Age Mediterranean chronology: a rejoinder. Radiocarbon 53(1):179–98.Google Scholar
Finkelstein, I. 1996. The archaeology of the United Monarchy: an alternative view. Levant 28(1):177–87.Google Scholar
Finkelstein, I, Piasetzky, E. 2010. Khirbet Qeiyafa: absolute chronology. Tel Aviv 37(1):84–8.CrossRefGoogle Scholar
Garfinkel, Y. 2011. The Davidic Kingdom in light of the finds at Khirbet Qeiyafa. City of David Studies of Ancient Jerusalem 6:13*35*.Google Scholar
Garfinkel, Y, Ganor, G. 2009. Khirbet Qeiyafa Volume 1. Excavation Report 2007–2008. Jerusalem: Israel Exploration Society.Google Scholar
Garfinkel, Y, Kang, H-G. 2011. The relative and absolute chronology of Khirbet Qeiyafa: very late Iron Age I or very early Iron Age IIA? Israel Exploration Journal 61(2):171–83.Google Scholar
Garfinkel, Y, Mumcuoglu, M. 2013. Triglyphs and recessed doorframes on a building model from Khirbet Qeiyafa: new light on two technical terms in the biblical descriptions of Solomon's palace and temple. Israel Exploration Journal 63(2):135–63.Google Scholar
Garfinkel, Y, Ganor, S, Hasel, M. 2010. The contribution of Khirbet Qeiyafa to our understanding of the Iron Age period. Strata: Bulletin of the Anglo-Israel Archaeological Society 28:3954.Google Scholar
Garfinkel, Y, Streit, K, Ganor, S, Hasel, MG. 2012. State formation in Judah: biblical tradition, modern historical theories and radiometric dates at Khirbet Qeiyafa. Radiocarbon 54(3–4):359–69.Google Scholar
Gilboa, A. 1999. The view from the East: Tel Dor and the earliest Cypro-Geometric exports to the Levant. In: Iacovou, M, Michaelides, D, editors. Cyprus: The Historicity of the Geometric Horizon. Nicosia: University of Cyprus. p 119–39.Google Scholar
Gilboa, A. 2012. Cypriot barrel juglets at Khirbet Qeiyafa and other sites in the Levant: cultural aspects and chronological implications. Tel Aviv 39:521.Google Scholar
Gilboa, A, Sharon, I. 2003. An archaeological contribution to the Early Iron Age chronological debate: alternative chronologies for Phoenicia and their effects on the Levant, Cyprus and Greece. Bulletin of the American Schools of Oriental Research 332:780.Google Scholar
Gilboa, A, Sharon, I, Boaretto, E. 2008. Tel Dor and the chronology of Phoenician “Precolonization” stages. In: Sagona, C, editor. Beyond the Homeland: Markers in Phoenician Chronology. Louvain: Monograph Series of Ancient Near Eastern Studies. p 113204.Google Scholar
Gilboa, A, Sharon, I, Boaretto, E. 2013. Radiocarbon dating of the Iron Age levels. In: Finkelstein, I, editor. Megiddo V. The 2004–2008 Seasons,Volume III. Tel Aviv: Emery and Claire Yass Publications in Archaeology. p 1117–27.Google Scholar
Herzog, Z. 1997. Archaeology of the City: Urban Planning in Ancient Israel and Its Social Implications. Tel Aviv: Institute of Archaeology.Google Scholar
Iacovou, M, editor. 2012. Cyprus and the Aegean in the Early Iron Age. The Legacy of Nicolas Coldstream. Nicosia: Bank of Cyprus Cultural Foundation.Google Scholar
Kang, H-G, Garfinkel, Y. 2009a. The Early Iron Age IIA pottery. In: Garfinkel, Y, Ganor, S, editors. Khirbet Qeiyafa Volume 1. Excavation Report 2007–2008. Jerusalem: Israel Exploration Society. p 119–49.Google Scholar
Kang, H-G, Garfinkel, Y. 2009b. Ashdod Ware I: Middle Philistine decorated ware. In: Garfinkel, Y, Ganor, S, editors. Khirbet Qeiyafa Volume 1. Excavation Report 2007–2008. Jerusalem: Israel Exploration Society. p 151–60.Google Scholar
Kehati, R. 2009. The faunal assemblage. In: Garfinkel, Y, Ganor, S, editors. Khirbet Qeiyafa Volume 1. Excavation Report 2007–2008. Jerusalem: Israel Exploration Society. p 201–8.Google Scholar
Lemche, NP. 1988. Ancient Israel: A New History of Israelite Society. Sheffield: Sheffield Academic Press.Google Scholar
Levy, TE, Higham, T, Bronk Ramsey, C, Smith, NG, Ben-Yosef, E, Robinson, M, Münger, S, Knabb, K, Schulze, JP, Najjar, M, Tauxe, L. 2008. High-precision radiocarbon dating and historical biblical archaeology in southern Jordan. Proceedings of the National Academy of Science of the USA 105(43):16,4605.Google Scholar
Malamat, A, editor. 1979. The Age of the Monarchies— Political History. World History of the Jewish People IV/I. Jerusalem: Massada.Google Scholar
Mazar, A. 1990. Archaeology of the Land of the Bible 10,000–586 BCE. New York: Doubleday.Google Scholar
Mazar, A, Bronk Ramsey, C. 2008. 14C dates and the Iron Age chronology of Israel: a response. Radiocarbon 50(2):159–80.Google Scholar
Misgav, H, Garfinkel, Y, Ganor, S. 2009. The ostracon. In: Garfinkel, Y, Ganor, S, editors. Khirbet Qeiyafa Volume 1. Excavation Report 2007–2008. Jerusalem: Israel Exploration Society. p 243–57.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
Sharon, I, Gilboa, A, Jull, T, Boaretto, E. 2007. Report on the First Stage of the Iron Age Dating Project in Israel: supporting the Low Chronology. Radiocarbon 49(1):146.Google Scholar
Shiloh, Y. 1978. Elements in the development of town planning in the Israelite city. Israel Exploration Journal 28(1–2):3651.Google Scholar
Slota, PJ Jr, Jull, AJT, Linick, TW, Toolin, LJ. 1987. Preparation of small samples for 14C accelerator targets by catalytic reduction of CO. Radiocarbon 29(2):303–6.Google Scholar
Thompson, TL. 1999. The Mythic Past: Biblical Archaeology and the Myth of Israel. New York: Basic.Google Scholar