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University of Cambridge Natural Radiocarbon Measurements XI

Published online by Cambridge University Press:  18 July 2016

V. R. Switsur  and
R. G. West
V. R. Switsur
Affiliation:
Sub-department of Quaternary Research, 5 Salisbury Villas, Station Road, Cambridge, England
R. G. West
Affiliation:
Sub-department of Quaternary Research, 5 Salisbury Villas, Station Road, Cambridge, England
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The measurements presented in this paper were carried out at the University Radiocarbon Dating Research Laboratory during the second half of 1971 using carbon dioxide counting. The counting equipment used was substantially that described by Switsur, Hall, and West (1970). Oxidation of samples of sufficiently high carbon content was performed in a stainless steel high pressure combustion bomb, developed at this laboratory, otherwise by ‘wet’ oxidation using acidified permanganate solutions for lake mud and samples of low organic content.

Type
Research Article
Information
Radiocarbon , Volume 15 , Issue 1 , 1973 , pp. 156 - 164
Copyright
Copyright © The American Journal of Science 

References

Birks, H.H., 1972, Studies in the vegetation history of Scotland III. A radiocarbon dated pollen diagram from Loch Maree, Ross and Cromarty: New Phytologist, v. 71, in press.CrossRefGoogle Scholar
Conway, V. M., 1954, Stratigraphy and pollen analysis of Southern Pennine Blanket Peats: Jour. Ecol., v. 42, p. 117.CrossRefGoogle Scholar
Godwin, H. and Willis, E. H., 1959a, Radiocarbon dating of the late-glacial period in Britain: Royal Soc. [London] Proc. B, v. 150, p. 199-215.Google Scholar
Godwin, H. and Willis, E. H., 1959b, Cambridge University natural radiocarbon measurements I: Am. Jour. Sci. Radiocarbon Supp., v. 1, p. 63-75.Google Scholar
Hicks, S.P., 1971, Pollen-analytical evidence for the effect of prehistoric agriculture on the vegetation of North Derbyshire: New Phytologist, v. 70, p. 647-667.CrossRefGoogle Scholar
Hibbert, F.A., Switsur, V. R., and West, R. G., 1971, Radiocarbon dating of Flandrian pollen zones at Red Moss, Lancashire: Royal Soc. [London] Proc. B, v. 177, p. 161-176.Google Scholar
Oldfield, F., 1964, Late Quaternary vegetational history in South West France: Pollen et Spores, v. 6, p. 157-168.Google Scholar
Seddon, B., 1962, Late-glacial deposits at Llyn Dwythwch and Nant Ffrancon, Caernarvonshire: Royal Soc. [London] Phil. Trans. B, v. 244, p. 459-481.Google Scholar
Switsur, V. R., Hall, M. A., and West, R. G., 1970, University of Cambridge natural radiocarbon measurements IX: Radiocarbon, v. 12, p. 590-598.CrossRefGoogle Scholar
Switsur, V. R. and West, R. G., 1972, University of Cambridge natural radiocarbon measurements X: Radiocarbon, v. 14, p. 239-246.CrossRefGoogle Scholar
Tallis, J. H., 1964, Studies on southern Pennine Peats II. The pattern of erosion: Jour. Ecol., v. 53, p. 333-344.CrossRefGoogle Scholar