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Design and Preparation of Samples for the International Collaborative Study

Published online by Cambridge University Press:  18 July 2016

D D Harkness ,
G T Cook ,
B F Miller ,
E M Scott  and
M S Baxter
D D Harkness
Affiliation:
Natural Environment Research Council (NERC) Radiocarbon Laboratory, Scottish Universities Research and Reactor Centre (SURRC), East Kilbride, Scotland
G T Cook
Affiliation:
Glasgow University Radiocarbon Laboratory, SURRC, East Kilbride
B F Miller
Affiliation:
Natural Environment Research Council (NERC) Radiocarbon Laboratory, Scottish Universities Research and Reactor Centre (SURRC), East Kilbride, Scotland
E M Scott
Affiliation:
Department of Statistics, Glasgow University, Scotland
M S Baxter
Affiliation:
Glasgow University Radiocarbon Laboratory, SURRC, East Kilbride
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Abstract

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Sample materials issued to participants in the interlaboratory calibration exercise are defined and in context of their intended interpretational significance. Preparation of the benzene and calcium carbonate standards as issued for stage 1 is described in detail; likewise, the source and pretreatment/extraction of the environmental samples dispatched for stages 2 and 3.

Type
I. Sample Preparation and Measurement Techniques
Information
Radiocarbon , Volume 31 , Issue 3: June 20-25, 1988 Dubrovnik, Yugoslavia , 1989 , pp. 407 - 413
Copyright
Copyright © The American Journal of Science 

References

Clark, R M, 1975, A calibration curve for radiocarbon dates: Antiquity, v 69, p 251266.Google Scholar
Godwin, H, 1962, Half-life of radiocarbon: Nature, v 195, p 984.Google Scholar
International Study Group (ISG), 1982, An inter-laboratory comparison of radiocarbon measurements in tree-rings: Nature, v 298, p 619623.Google Scholar
International Study Group (ISG), 1983, An international tree-ring replicate study, in 14C and archaeology Proc: Groningen, PACT 8, p 123133.Google Scholar
Mook, W G, 1985, Recommendations/resolutions adopted by the Twelfth International Radiocarbon Conference, in Stuiver, M and Kra, R S, eds, Internatl 14C conf, 12th, Proc: Radiocarbon, v 28, no. 2A, p 797.Google Scholar
Otlet, R L, Walker, A J, Hewson, A D and Burleigh, R, 1980, 14C interlaboratory comparison in the UK: Experiment design, preparation and preliminary results, in Stuiver, M and Kra, R S, eds, Internatl 14C conf, 10th, Proc: Radiocarbon, v 22, no. 3, p 936947.Google Scholar
Pardi, R and Marcus, L, 1977, Non-counting errors in 14C dating: Annals N Y Acad Sci v 288, p 174180.Google Scholar
Scott, E M, Aitchison, T C, Harkness, D D, Baxter, M S and Cook, G T, 1989, An interim progress report on Stages 1 and 2 of the International Collaborative program: Radiocarbon, this issue.Google Scholar
Scott, E M, Baxter, M S, Aitchison, T C, Harkness, D D and Cook, G T, 1986, Announcement of a new collaborative study for intercalibration of 14C dating laboratories: Radiocarbon, v 28, no. 1, p 167169.Google Scholar
Stuiver, M, 1983, International agreements and the use of the new oxalic acid standard, in Stuiver, M and Kra, R S, eds, Internatl 14C conf, 11th, Proc: Radiocarbon, v 25, no. 2, p 793795.Google Scholar
Stuiver, M and Polach, H A, 1977, Discussion: Reporting of 14C data: Radiocarbon, v 19, no. 3, p 355363.Google Scholar
Taylor, C B, 1978, Interlaboratory comparison of low-level tritium measurements in water: Internatl Jour Applied Radiation Isotopes, v 29, p 3948.Google Scholar