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Cambridge University Natural Radiocarbon Measurements III

Published online by Cambridge University Press:  18 July 2016

H. Godwin
Affiliation:
Cambridge University ∗
E. H. Willis
Affiliation:
Cambridge University ∗
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The dates and activity measurements given below have been obtained during the year 1960 (excepting only Q-9 held over from the previous year). They have been made with carbon dioxide at 3 atmospheres pressure in a proportional gas-counter similar to that used for the results given in Radiocarbon Supplement, volumes 1 and 2.

Type
Research Article
Copyright
Copyright © The American Journal of Science 

References

Barker, H. and Mackey, C. J., 1960, British Museum natural radiocarbon measurements II: Am. Jour. Sci. Radioc. Supp., v. 2, p. 2630.Google Scholar
Clark, G., 1933, Report on an Early Bronze Age site in the south-eastern Fens: Antiquaries; Jour., v. 13, p. 266296.Google Scholar
Clark, J. G. D., Godwin, H. and Godwin, M. E., and Clifford, M. H., 1935, Report on recent excavations at Peacock's Farm, Shippea Hill, Cambridgeshire: Antiquaries Jour., v. 15, p. 284319.Google Scholar
Donner, J. J., 1957, The geology and vegetation of Late-glacial retreat stages in Scotland: Royal Soc. Edinburgh Trans., v. 63, p. 221264.Google Scholar
Erdtman, G., 1928, Studies in the postarctic history of the forests of north-western Europe. I. Investigations in the British Isles: Geol. fören. Stockholm Förh, v. 50, p. 123192.Google Scholar
Forbes, C. L., Joysey, K. A., and West, R. G., 1958, On postglacial pelicans in Britain: Geol. Mag., v. 95, p. 153160.CrossRefGoogle Scholar
Godwin, H., 1940, Studies of the post-glacial history of British vegetation. III, Fenland pollen diagrams, IV, Post-glacial changes of relative land- and sea-level in the English Fenland: Royal Soc. London Philos. Trans., B, v. 230, p. 239303.Google Scholar
Godwin, H. 1941, Studies of the post-glacial history of British vegetation. VI. Correlations: in the Somerset Levels: New Phytologist, v. 40, p. 108132.Google Scholar
Godwin, H. 1943, Coastal peat beds of the British Isles and North Sea: Jour. Ecology, v. 31, p. 199247.Google Scholar
Godwin, H. 1944, Age and origin of the ‘Brecklandrlsquo; heaths of East Anglia: Nature, v. 154, p. 67.Google Scholar
Godwin, H. 1945, Coastal peat-beds of the North Sea region, as indices of land- and sea-level changes: New Phytologist, v. 44, p. 2969.Google Scholar
Godwin, H. 1951, Comments on radiocarbon dating for samples from the British Isles: Am. Jour. Sci., v. 249, p. 301307.Google Scholar
Godwin, H. 1960, Radiocarbon dating and Quaternary history in Britain—the Croonian lecture: Royal Soc. London Proc., ser. B, v. 153, p. 287320.Google Scholar
Godwin, H. and Clifford, M. H., 1938, Studies of the post-glacial history of British vegetation, I. Origin and stratigraphy of Fenland deposits near Woodwalton, Hunts.; II, Origin and stratigraphy of deposits in southern Fenland: Royal Soc. [London] Philos. Trans., ser. B, v. 229, p. 323406.Google Scholar
Godwin, H. and Godwin, M. E., and Clifford, M. H., 1935, Controlling factors in the formation of fen deposits, as shown by peat investigations at Wood Fen, near Ely: Jour. Ecology, v. 23, p. 509535.Google Scholar
Godwin, H., Suggate, R. P., and Willis, E. H., 1958, Radiocarbon dating of the eustatic rise in ocean-level: Nature, v. 181, p. 15181519.Google Scholar
Godwin, H. and Tallentire, P. A., 1951, Studies of the post-glacial history of British vegetation. XII. Hockham Mere, Norfolk: Jour. Ecology, v. 39, p. 285307.Google Scholar
Godwin, H., and Willis, E. H., 1959, Cambridge University natural radiocarbon measurements I: Am. Jour. Sci. Radioc. Supp., v. 1, p. 6375.Google Scholar
Godwin, H., and Willis, E. H. 1960, Cambridge University natural radiocarbon measurements II: Am. Jour. Sci. Radioc. Supp., v. 2, p. 6272.Google Scholar
Jessen, K, 1949, Studies in the Late Quaternary deposits and flora-history of Ireland: Royal Irish Acad. Proc., 44 B 10, p. 85290.Google Scholar
Libby, W. F., 1952, Radiocarbon dating: Chicago, Univ. Chicago Press, vii 124 p.Google Scholar
McAulay, I. R., and Watts, W. A., 1961, Dublin radiocarbon dates I: Radiocarbon, v. 3, p. 2638.Google Scholar
Oldfield, Frank, 1960, Studies in the post-glacial history of British vegetation; Lowland Lonsdale: New Phytologist, v. 59, p. 192217.Google Scholar
Smith, A. G., 1958a, The context of some Late Bronze Age and Early Iron Age remains from Lincolnshire: Prehist. Soc. Proc., v. 24, p. 7884.Google Scholar
Smith, A. G. 1958b, Post-glacial deposits in south Yorkshire and north Lincolnshire: New Phytologist, v. 57, p. 1949.Google Scholar
Smith, A. G. 1959, The mires of southwestern Westmorland: stratigraphy and pollen-analysis: New Phytologist, v. 58, p. 105127.Google Scholar
Swinnerton, H. H., 1931, The post-glacial deposits of the Lincolnshire coast: Geol. Soc. London Quart. Jour., v. 87, p. 360375.Google Scholar
Watts, W. A., 1960, C-14 dating and the Neolithic in Ireland: Antiquity, v. 34, p. 111116.Google Scholar