14C Dating of Modern Marine and Estuarine Shellfish

A. G. Hogg; T. F. G. Higham; J. Dahm

doi:10.1017/S0033822200018944

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 measured the 14C content of 36 living marine molluscs from Tairua Harbour and the rocky coast on the Coromandel Peninsula of New Zealand. We identified species suitable for radiocarbon dating and show that the open marine intertidal zone is enriched in 14C compared to the open marine subtidal zone or estuary. We also found a uniform 14C distribution in the Tairua Harbour, by analyzing samples of the estuarine bivalve Austrovenus stutchbwyi collected up to 5 km from the harbor entrance.

References

Anderson, A. J. 1991 The chronology of colonisation in New Zealand. Antiquity 65(249): 767–795.CrossRef Google Scholar

Druffel, E. R. M. and Griffin, S. 1995 Regional variability of surface ocean radiocarbon from Great Barrier Reef corals. In Cook, G. T., Harkness, D. D., Miller, B. F. and Scott, E. M., eds., Proceedings of the 15th International ¹⁴C Conference. Radiocarbon 37(2): 517–524.CrossRef Google Scholar

Erlenkeuser, H., Metzner, H. and Willkomm, H. 1975 University of Kiel Radiocarbon Measurements VIII. Radiocarbon 17(3): 276–300.CrossRef Google Scholar

Higham, T. F. G. (ms.) 1993 Radiocarbon dating the prehistory of New Zealand. D. Phil thesis, University of Waikato.Google Scholar

Higham, T. F. G. and Hogg, A. G. 1995 Radiocarbon dating of prehistoric shell from New Zealand and calculation of the ΔR value using fish otoliths. In Cook, G. T., Harkness, D. D., Miller, B. F. and Scott, E. M., eds., Proceedings of the 15th International ¹⁴C Conference. Radiocarbon 37(2): 404–416.CrossRef Google Scholar

Hogg, A. G. 1992 Performance and design of 0.3-ml to 10-ml synthetic silica liquid scintillation vials for low-level ¹⁴C determination. In Noakes, J. E., Schönhofer, F. and Polach, H. A., eds., Liquid Scintillation Spectrometry 1992. Tucson, Radiocarbon: 135–142.Google Scholar

Kalish, J. M. 1993 Pre- and post-bomb radiocarbon in fish otoliths. Earth and Planetary Science Letters 114(4): 549–554.CrossRef Google Scholar

Stuiver, M. and Polach, H. A. 1977 Discussion: Reporting of ¹⁴C data. Radiocarbon 19(3): 355–363.CrossRef Google Scholar

Morton, J. E. and Miller, M. C. 1968 The New Zealand Sea Shore. Collins, London: 638 p.Google Scholar

Tanaka, N., Monaghan, M. C. and Rye, D. M. 1986 Contribution of metabolic carbon to mollusc and barnacle shell carbonate. Nature 320: 520–523.CrossRef Google Scholar

Ward, G. K. and Wilson, S. R. 1978 Procedures for comparing and combining radiocarbon age determinations: A critique. Archaeometry 20(1): 19–31.CrossRef Google Scholar

Weidman, C. R and Jones, G. A. 1993 A shell-derived time history of bomb ¹⁴C on Georges Bank and its Labrador Sea implications. Journal of Geophysical Research 98(14): 577–588.CrossRef Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Ulm, Sean 2002. Marine and estuarine reservoir effects in central Queensland, Australia: Determination of ΔR values. Geoarchaeology, Vol. 17, Issue. 4, p. 319.

Reimer, P. J. McCormac, F. G. Moore, J. McCormick, F. and Murray, E. V. 2002. Marine radiocarbon reservoir corrections for the midto late Holocene in the eastern subpolar North Atlantic. The Holocene, Vol. 12, Issue. 2, p. 129.

Yoneda, Minoru Shibata, Yasuyuki Morita, Masatoshi Hirota, Masashi Suzuki, Ryo Uzawa, Kazuhiro Ohshima, Naoyuki and Dodo, Yukio 2004. Interspecies comparison of marine reservoir ages at the Kitakogane shell midden, Hokkaido, Japan. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, Vol. 223-224, Issue. , p. 376.

Kuzmin, Y.V. Nevesskaya, L.A. Krivonogov, S.K. and Burr, G.S. 2007. Apparent 14C ages of the ‘pre-bomb’ shells and correction values (R, ΔR) for Caspian and Aral Seas (Central Asia). Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, Vol. 259, Issue. 1, p. 463.

Petchey, Fiona Anderson, Atholl Hogg, Alan and Zondervan, Albert 2008. The marine reservoir effect in the Southern Ocean: An evaluation of extant and new ?R values and their application to archaeological chronologies. Journal of the Royal Society of New Zealand, Vol. 38, Issue. 4, p. 243.

Petchey, Fiona Allen, Melinda S. Addison, David J. and Anderson, Atholl 2009. Stability in the South Pacific surface marine 14C reservoir over the last 750years. Evidence from American Samoa, the southern Cook Islands and the Marquesas. Journal of Archaeological Science, Vol. 36, Issue. 10, p. 2234.

ULM, SEAN PETCHEY, FIONA and ROSS, ANNIE 2009. Marine reservoir corrections for Moreton Bay, Australia. Archaeology in Oceania, Vol. 44, Issue. 3, p. 160.

Dee, M.W. Brock, F. Harris, S.A. Ramsey, C. Bronk Shortland, A.J. Higham, T.F.G. and Rowland, J.M. 2010. Investigating the likelihood of a reservoir offset in the radiocarbon record for ancient Egypt. Journal of Archaeological Science, Vol. 37, Issue. 4, p. 687.

Boaretto, E. Mienis, H.K. and Sivan, D. 2010. Reservoir age based on pre-bomb shells from the intertidal zone along the coast of Israel. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, Vol. 268, Issue. 7-8, p. 966.

Petchey, Fiona and Clark, Geoffrey 2011. Tongatapu hardwater: Investigation into the 14C marine reservoir offset in lagoon, reef and open ocean environments of a limestone island. Quaternary Geochronology, Vol. 6, Issue. 6, p. 539.

AMBROSE, WAL PETCHEY, FIONA SWADLING, PAMELA BERAN, HARRY BONSHEK, ELIZABETH SZABO, KATHERINE BICKLER, SIMON and SUMMERHAYES, GLENN 2012. Engraved prehistoric Conus shell valuables from southeastern Papua New Guinea: their antiquity, motifs and distribution. Archaeology in Oceania, Vol. 47, Issue. 3, p. 113.

Zazzo, A. Munoz, O. Saliège, J.-F. and Moreau, C. 2012. Variability in the marine radiocarbon reservoir effect in Muscat (Sultanate of Oman) during the 4th millennium BC: reflection of taphonomy or environment?. Journal of Archaeological Science, Vol. 39, Issue. 7, p. 2559.

Petchey, Fiona Ulm, Sean David, Bruno McNiven, Ian J. Asmussen, Brit Tomkins, Helene Dolby, Nic Aplin, Ken Richards, Thomas Rowe, Cassandra Leavesley, Matthew and Mandui, Herman 2013. High-resolution radiocarbon dating of marine materials in archaeological contexts: radiocarbon marine reservoir variability between Anadara, Gafrarium, Batissa, Polymesoda spp. and Echinoidea at Caution Bay, Southern Coastal Papua New Guinea. Archaeological and Anthropological Sciences, Vol. 5, Issue. 1, p. 69.

Reimer, Paula J. 2014. Marine or estuarine radiocarbon reservoir corrections for mollusks? A case study from a medieval site in the south of England. Journal of Archaeological Science, Vol. 49, Issue. , p. 142.

Alves, Eduardo Macario, Kita Souza, Rosa Pimenta, Alexandre Douka, Katerina Oliveira, Fabiana Chanca, Ingrid and Angulo, Rodolfo 2015. Radiocarbon reservoir corrections on the Brazilian coast from pre-bomb marine shells. Quaternary Geochronology, Vol. 29, Issue. , p. 30.

Clement, Alastair J.H. Whitehouse, Pippa L. and Sloss, Craig R. 2016. An examination of spatial variability in the timing and magnitude of Holocene relative sea-level changes in the New Zealand archipelago. Quaternary Science Reviews, Vol. 131, Issue. , p. 73.

Grimm, Brittany L. Spero, Howard J. Harding, Juliana M. and Guilderson, Thomas P. 2017. Seasonal radiocarbon reservoir ages for the 17th century James River, Virginia estuary. Quaternary Geochronology, Vol. 41, Issue. , p. 119.

Szabó, Katherine 2017. Encyclopedia of Geoarchaeology. p. 772.

PETCHEY, FIONA CLARK, GEOFFREY WINTER, OLAF O'DAY, PATRICK and LITSTER, MIRANI 2017. Colonisation of Remote Oceania: New dates for the Bapot‐1 site in the Mariana Islands. Archaeology in Oceania, Vol. 52, Issue. 2, p. 108.

Hadden, Carla S Cherkinsky, Alexander Smith, Geoffrey M Ollivier, Aaron P and Pan, Hai 2017. Carbon and Oxygen Isotope Composition of Early Holocene Olivella Shell Beads from the Northwest Coast, USA. Radiocarbon, Vol. 59, Issue. 5, p. 1507.

Download full list

Article contents

14C Dating of Modern Marine and Estuarine Shellfish

Abstract

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests