Hostname: page-component-cd9895bd7-8ctnn Total loading time: 0 Render date: 2024-12-26T08:29:03.506Z Has data issue: false hasContentIssue false
  • English
  • Français

Mid-Holocene Dates for Organic-Rich Sediment, Palustrine Shell, and Charcoal from Southern Iraq

Published online by Cambridge University Press:  18 July 2016

Carrie Hritz ,
Jennifer Pournelle ,
Jennifer Smith ,
Badir Albadran ,
Bushra Majeed Issa  and
Adil Al-Handal
Carrie Hritz*
Affiliation:
Department of Anthropology, The Pennsylvania State University, University Park, Pennsylvania 16801, USA
Jennifer Pournelle
Affiliation:
Environment and Sustainability Program, University of South Carolina, 901 Sumter St. Byrnes 430A, Columbia, South Carolina 29169, USA
Jennifer Smith
Affiliation:
Department of Earth and Planetary Sciences, Washington University in St. Louis, Campus Box 1169, 1 Brookings Dr., St. Louis, Missouri 63130, USA
Badir Albadran
Affiliation:
Department of Geology, College of Science, University of Basrah–Qarmat Ali, Basra, Iraq
Bushra Majeed Issa
Affiliation:
Department of Geology, College of Science, University of Basrah–Qarmat Ali, Basra, Iraq
Adil Al-Handal
Affiliation:
Marine Sciences Centre, College of Science, University of Basrah–Qarmat Ali, Basra, Iraq
*
Corresponding author. Email: cah52@psu.edu.
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

We present the results of accelerator mass spectrometry (AMS) radiocarbon dating of 11 samples collected from 4 locations in southern Iraq. As a result of the hiatus in fieldwork in that region since 1990, and the antiquity of the majority of archaeological excavations conducted there, the record of 14C dates for southern Mesopotamia is patchy for all periods. This is especially true for the mid-Holocene, when the world's oldest and longest-sustained urban system first emerged there. The dates here reported not only make a significant contribution to available dates for this important region and period; they fill specific gaps in crucial geographic coverage, and shed light on the extent of marshland boundaries and the antiquity of settlement at key urban centers.

Type
Articles
Information
Radiocarbon , Volume 54 , Issue 1 , 2012 , pp. 65 - 79
Copyright
Copyright © 2012 by the Arizona Board of Regents on behalf of the University of Arizona 

References

14CHRONO Centre, Queens University Belfast. Marine Reservoir Correction: Subregion Arabian-Persian Gulf. http://radiocarbon.pa.qub.ac.uk/marine/regioncalc.php. Accessed 29 September 2011.Google Scholar
Al-Ali, R A-S. 2007. Study of recent faunal assemblages and their ecology in the northwestern Arabian Gulf and Southern Mesopotamia [unpublished PhD dissertation]. University of Basrah.Google Scholar
Aqrawi, A. 1995. Correction of Holocene sedimentation rates for mechanical compaction: the Tigris-Euphrates Delta, lower Mesopotamia. Marine and Petroleum Geology 12(4):409–16.Google Scholar
Aqrawi, AAM. 2001. Stratigraphic signatures of climatic change during the Holocene evolution of the Tigris-Euphrates Delta, lower Mesopotamia. Global and Planetary Change 28(1–4):267–83.Google Scholar
Aqrawi, AAM, Evans, G. 1994. Sedimentation in the lakes and marshes (Awhar) of the Tigris-Euphrates Delta, southern Mesopotamia. Sedimentology 41(4):755–76.Google Scholar
Aqrawi, AM, Domas, J, Jassim, SZ. 2006. Quaternary deposits. In: Jassim, SZ, Goff, JC, editors. Geology of Iraq. Praque: Dolin. p 185–96.Google Scholar
Baeteman, C, Dupin, L, Heyvaert, V. 2004/2005. Geo-environmental investigation. In: Gasche, H, editor. The Persian Gulf Shorelines and the Karkheh, Karun, and Jarrahi Rivers: A Geo-Archaeological Approach. A Joint Belgo-Iranian Project. First Progress Report. Akkadica 125:2 (2004/2005):141215.Google Scholar
Boehmer, RM. 1991. 14C-Daten aus Uruk und Abydos - Ägytisches (?) im Frühen Nordsyrien, Sumer und Elam. Mainz am Rhein: Verlag Philipp von Zabern. Baghdader Mitteilungen 22(1991):223–30.Google Scholar
Bronk Ramsey, C. 2009. Bayesian analysis of radiocarbon dates. Radiocarbon 51(1):337–60.CrossRefGoogle Scholar
Brückner, H. 2003. Uruk–a geographic and paleo-archaeologic perspective on a famous ancient city in Iraq. Bensheim: Georg-August University. Geo-Öko XXIV:229–48.Google Scholar
Burr, GS, Edwards, RL, Donahue, DJ, Druffel, ERM, Taylor, FW. 1992. Mass spectrometric 14C and U-Th measurements in coral. Radiocarbon 34(3):611–8.Google Scholar
Carter, R, Crawford, H. 2002. The Kuwait-British archaeological expedition to As-Sabiyah: report on the third season's work. Iraq 64:113.Google Scholar
Chen, Z, Kavvas, M, Ohara, N, Anderson, M, Yoon, J. 2010. Impact of water resources utilization on the hydrology of Mesopotamian marshlands. Journal of Hydrologic Engineering 16(12): doi:10.1061/(ASCE)HE. 1943-5584.0000208.Google Scholar
Donahue, DJ, Linick, TW, Jull, AJT. 1990. Isotope-ratio and background corrections for accelerator mass spectrometry radiocarbon measurements. Radiocarbon 32(2):135–42.Google Scholar
Fassbinder, J, Becker, H, van Ess, M. 2005. Prospections magnétiques à Uruk (Warka). La cité du roi Gilgamesh (Irak). Dijon: Editions Faton SAS. Dossiers Archéologie 308:20–5.Google Scholar
Gasche, H. 2004. The Persian Gulf shorelines and the Karakheh, Karun and Jarrahi rivers: a geo-archaeological approach. A Joint Belgo-Iranian Project. First progress report. Akkadica 125(2):141215.Google Scholar
Godwin, H, Suggate, RP, Willis, EH. 1958. Radiocarbon dating of the eustatic rise in ocean-level. Nature 181(4622):1518–9.Google Scholar
Heyvaert, VMA, Baeteman, C. 2008. A Middle to Late Holocene avulsion history of the Euphrates River: a case study from Tell ed-Dēr, Iraq, Lower Mesopotamia. Quaternary Science Reviews 27(25–26):2401–10.Google Scholar
Huot, J-L, Calvet, Y, Chevalier, J, Forest, J-D. 1981. II. Tell el 'Oucili. 1. Rapport préliminaire sur la deuxième champagne, (1978). Syria 58(1–2):101–20.Google Scholar
IMOS [Iraqi Marshlands Observation System]. 2006. Iraqi Marshlands Observation System – UNEP Technical Report 2006. http://postconflict.unep.ch/publications/UNEP_IMOS.pdf.Google Scholar
Jull, AJT, Burr, GS, Beck, JW, Hodgins, GWL, Biddulph, DL, Gann, J, Hatheway, AL, Lange, TE, Lifton, NA. 2006. Application of accelerator mass spectrometry to environmental and paleoclimate studies at the University of Arizona. In: Povinec, P, Sanchez-Cabrera, JA, editors. Radionuclides in the Environment 8:323.Google Scholar
Larsen, CE. 1975. The Mesopotamia delta region: a reconsideration of Lees and Falcon. Journal of the American Oriental Society 95(1):4357.Google Scholar
Münnich, KO. 1957. Heidelberg natural radiocarbon measurements I. Science 126(3266):194–9.Google Scholar
Oates, J, McMahon, A, Karsgaard, P, al-Quntar, S, Ur, J. 2007. Early Mesopotamian urbanism: a new view from the north. Antiquity 83(313):585600.Google Scholar
Parrot, A. 1948. Tello Vingt Campagnes de Fouilles (1877–1933). Paris: Editions Albin Michel.Google Scholar
Plaziat, JC, Sanlaville, P. 1991. Donnes recentes sur la sedimentation tardive dans la plaine de Larsa-Ouelli. In: Hout, J-L, editor. 'Oueilli: Travaux de 1985. Paris: Editions Recherche sur les Civilizations. p 342–43.Google Scholar
Plaziat, JC, Younis, WR. 2005. The modern environments of Molluscs in southern Mesopotamia, Iraq: a guide to paleogeographical reconstructions of Quaternary fluvial, palustrine and marine deposits. Carnets de Géologie / Notebooks on Geology, Brest, Article 2005/01 (CG2005_A01).Google Scholar
Pournelle, JR. 2003a. The littoral foundations of the Uruk state: using satellite photography toward a new understanding of 5th/4th millennium BCE landscapes in the Warka Survey Area, Iraq. In: Gheorghiu, D, editor. Chalcolithic and Early Bronze Age Hydrostrategies. BAR International Series 1123. Oxford: Archaeopress. p 523.Google Scholar
Pournelle, JR. 2003b. Marshland of cities: deltaic landscapes and the evolution of early Mesopotamian civilization [PhD dissertation]. Department of Anthropology, University of California, San Diego.Google Scholar
Pournelle, JR. 2006–2011. Traces on the 'Ubaidian shore: Mid-Holocene custasis, marine transgression, and urbanization in the Mesopotamian Delta (Iraq). Presented at: International Conference on the 'Ubaid. University of Durham, UK, April 2006; American School of Oriental Research Annual Meeting 2010—Space, Place, and Landscape in the Old and New Worlds, Atlanta, Georgia, 17 November 2010 (updated); American Geophysical Union Annual Conference—The evolution of river systems since the Last Glacial Maximum and their interactions with human societies, December 2011 (updated).Google Scholar
Pournelle, JR. 2007. KLM to Corona: a bird's-eye view of cultural ecology and early Mesopotamian civilization. In: Stone, E, editor. Settlement and Society: Essays Dedicated to Robert McCormick Adams. Los Angeles: UCLA Cotsen Institute of Archaeology; Chicago: Oriental Institute. p 2962.CrossRefGoogle Scholar
Pournelle, JR, Algaze, G. 2012. Travels in Edin: deltaic resilience and early urbanism in greater Mesopotamia. In: Crawford, H, McMahon, A, Postgate, N, editors. Preludes to Urbanism: Studies in the Late Chalcolithic of Mesopotamia in Honour of Joan Oates. BAR International Scries. Oxford: Archaeopress. In press.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, Wcyhenmeyer, CE. 2009. IntCal09 and Marinc09 radiocarbon age calibration curves, 0–50,000 years cal BP. Radiocarbon 51(4):1111–50.Google Scholar
Safar, F, Mustafa, MA, Lloyd, S. 1981. Eridu. Baghdad: Ministry of Culture and Information, State Organization of Antiquities and Heritage.Google Scholar
Southon, J, Kashgarian, M, Fontugne, M, Metivier, B, Yim, WWS. 2002. Marine reservoir corrections for the Indian Ocean and Southeast Asia. Radiocarbon 44(1):167–80.CrossRefGoogle Scholar
Stuckenrath, R, Ralph, E. 1965. University of Pennsylvania radiocarbon dates VIII. Radiocarbon 7:187–91.Google Scholar
Ur, J. 2010. Cycles of civilization in northern Mesopotamia, 4400–2000 B.C. Journal of Archaeological Research 18(4):387431.CrossRefGoogle Scholar
Valladas, H, Evin, J, Arnold, M. 1996. Datation par la méthode du charbon 14 des couches Obeid 0 et 1 de Tell cl Oueili (Iraq). In: Huot, J-L, editor. Oueili: Travaux de 1987 et 1989. Paris: Editions Recherche sur les Civilizations. p 381–3.Google Scholar
Vogel, JS, Southon, JR, Nelson, DE, Brown, TA. 1984. Performance of catalytically condensed carbon for use in accelerator mass spectrometry. Nuclear Instruments and Methods in Physics Research B 5(2):289–93.Google Scholar
Wilkinson, T. 2003. Archaeological Landscapes of the Near East. Tucson: University of Arizona Press.Google Scholar
Wright, HT, Rupley, ESA. 2001. Calibrated radiocarbon age determinations of Uruk-related assemblages. In: Rothman, M, editor. Uruk Mesopotamia and Its Neighbors: Cross-Cultural Interactions in the Era of State Formation. Santa Fe: School of American Research Press. p 85122.Google Scholar