Hostname: page-component-76fb5796d-wq484 Total loading time: 0 Render date: 2024-04-25T20:18:12.905Z Has data issue: false hasContentIssue false
  • English
  • Français

A Marine Reservoir Correction Database and On-Line Interface

Published online by Cambridge University Press:  18 July 2016

P J Reimer  and
R W Reimer
P J Reimer*
Affiliation:
School of Archaeology and Palaeoecology, Queen's University of Belfast, Belfast BT7 INN, Northern Ireland
R W Reimer
Affiliation:
School of Archaeology and Palaeoecology, Queen's University of Belfast, Belfast BT7 INN, Northern Ireland
*
Corresponding author. Email: pjreimer@calib.org.
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.

Calibration is essential for interpretation of radiocarbon dates, especially when the 14C dates are compared to historical or climatic records with a different chronological basis. 14C ages of samples from the marine environment, such as shells or fish bones, or samples with a marine component, such as human bone in coastal regions, require an additional consideration because of the reservoir age of the ocean. While the pre-industrial global mean reservoir correction, R(t), is about 400 years, local variations (ΔR) can be several hundred years or more. ΔR compilations on a global scale have been undertaken previously (Stuiver et al. 1986; Stuiver and Braziunas 1993), but have not been updated recently. Here we describe an on-line reservoir correction database accessed via mapping software. Rather than publishing a static ΔR compilation, new data will be incorporated when it becomes available. The on-line marine reservoir correction database can be accessed at the website http://www.calib.org/.

Type
II. Getting More from the Data
Information
Radiocarbon , Volume 43 , Issue 2A: Proceedings of the 17th International Radiocarbon Conference (Part 1 of 3) , 2001 , pp. 461 - 463
Copyright
Copyright © The Arizona Board of Regents on behalf of the University of Arizona 

References

Austin, WEN, Bard, E, Hunt, JB, Kroon, D, Peacock, JD. 1995. The 14C age of the Icelandic Vedde Ash: implications for Younger Dryas marine reservoir age corrections. Radiocarbon 37(1):5362.CrossRefGoogle Scholar
Bronk Ramsey, C. 1995. Radiocarbon calibration and analysis of stratigraphy: the OxCal program. Radiocarbon 37(2):425–30.Google Scholar
Druffel, EM. 1981. Radiocarbon in annual coral rings from the eastern tropical Pacific Ocean. Geophysical Research Letters 8:5962.CrossRefGoogle Scholar
Druffel, EM. 1997. Pulses of rapid ventilation in the North Atlantic surface ocean during the past century. Science 275:1454–7.CrossRefGoogle Scholar
Druffel, EM, Linick, TW. 1978. Radiocarbon in annual coral rings of Florida. Geophysical Research Letters 5:913–6.CrossRefGoogle Scholar
Druffel, ERM, Griffin, S. 1999. Variability of surface ocean radiocarbon and stable isotopes in the southwestern Pacific. Journal of Geophysical Research 104(C10):23,60713.Google Scholar
Dutta, K, Bhushan, R, Somayajulu, BLK. 2001. ΔR correction values for the Northern Indian Ocean. Radiocarbon. This issue.CrossRefGoogle Scholar
Dye, T. 1994. Apparent ages of marine shells: implications for archaeological dating in Hawai'i. Radiocarbon 36(1):51–7.CrossRefGoogle Scholar
Forman, SL, Polyak, L. 1997. Radiocarbon content of prebomb marine mollusks and variations in the 14C reservoir age for coastal areas of the Barents and Kara seas, Russia. Geophysical Research Letters 24:885–8.CrossRefGoogle Scholar
Hogg, AG, Higham, TF G, Dahm, J. 1998. 14C dating of modern marine and estuarine shellfish. Radiocarbon 40(2):975–84.Google Scholar
Heier-Nielsen, S, Heinemeier, J, Nielsen, HL, Rud, N. 1995. Recent reservoir ages for Danish fjords and marine waters. Radiocarbon 37(2):875–82.Google Scholar
Hideshima, S, Matsumoto, E, Abe, O, Kitagawa, H. 2001. Marine reservoir correction of northwest Pacific estimated from an annually banded coral of Ishigaki Island, Southern Japan. Radiocarbon. This issue.CrossRefGoogle Scholar
Hughen, KA, Overpeck, JT, Lehman, SJ, Kashgarian, M, Southon, J, Peterson, LC, Alley, R, Sigman, DM. 1998. Deglacial changes in ocean circulation from an extended radiocarbon calibration. Nature 391:65–8.CrossRefGoogle Scholar
Ingram, BL, Southon, JR. 1996. Reservoir ages in Eastern Pacific coastal and estuarine waters. Radiocarbon 38(3):573–82.CrossRefGoogle Scholar
Lanting, JN, van der Plicht, J. 1998. Reservoir effects and apparent 14C-ages. Journal of Irish Archaeology 9: 151–65.Google Scholar
Kuzmin, YV, Burr, GS, Jull, ATJ. 2001. 14C reservoir correction ages in the Peter the Great Gulf, Sea of Japan, and eastern coast of the Kunashir, Southern Kuriles (Northwestern Pacific). Radiocarbon. This issue.CrossRefGoogle Scholar
Monges Soares, AM. 1993. The 14C content of marine shells: evidence for variability in coastal upwelling off Portugal during the Holocene. In: Isotope techniques in the Study of Past and Current Environmental Changes in the Hydrosphere and Atmosphere (Proceedings) Vienna. p 471485.Google Scholar
Olsson, IU. 1996. 14C dates and the reservoir effect. In: van der Plicht, J, Punning, J-M, editors. International Workshop on Isotope-Geochemical Research in the Baltic Region. Centre for Isotope Research Groningen. p 523.Google Scholar
Peck, LS, Brey, T. 1996. Bomb signals in old Antarctic brachiopods. Nature 380:207–8.CrossRefGoogle Scholar
Sikes, EL, Samson, CR, Guilderson, TP, Howard, WR. 2000. Old radiocarbon ages in the southwest Pacific Ocean during the last glacial period and deglaciation. Nature 405:555–9.Google Scholar
Stuiver, M, Braziunas, TF. 1993. Modeling atmospheric 14C influences and 14C ages of marine samples to 10,000 BC. Radiocarbon 35(2):137189.Google Scholar
Stuiver, M, Pearson, GW, Braziunas, TF. 1986. Radiocarbon age calibration of marine samples back to 9000 cal yr BP. Radiocarbon 28(2B):9801021.Google Scholar
Stuiver, M, Polach, HA. 1977. Discussion: reporting of 14C data. Radiocarbon 19(3):355–63.Google Scholar
Stuiver, M, Reimer, PJ, Braziunas, TF. 1998. High-precision radiocarbon age calibration for terrestrial and marine samples. Radiocarbon 40(3):1127–51.Google Scholar
Wessel, P, Smith, WHF. 1998. New, improved version of the Generic Mapping Tools Released. EOS Transactions, AGU 79:579.Google Scholar
Yoneda, M, Kitagawa, H, van der Plicht, J, Uchida, M, Tanaka, A, Uehiro, T, Shibata, Y, Morita, M, Ohno, T. 2000. Pre-bomb marine reservoir ages in the western north Pacific: Preliminary result on Kyoto University collection. Nuclear Instruments and Methods in Physics Research B172:377–81.Google Scholar