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Yale Natural Radiocarbon Measurements VII

Published online by Cambridge University Press:  18 July 2016

Minze Stuiver  and
Edward S. Deevey
Minze Stuiver
Affiliation:
Geochronometric Laboratory, Yale University, New Haven, Connecticut
Edward S. Deevey
Affiliation:
Geochronometric Laboratory, Yale University, New Haven, Connecticut
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The following list includes many of the measurements made since publication of Yale VI, but many are withheld pending receipt of more complete information or additional samples. We report dates in terms of the Libby half life of C14, 5570 ± 30 yr; geochemical measurements, when normalized for C13 content, are given as δ in parts per mil, as described in Yale VI. As before, we acknowledge the technical assistance of George Young, Jonathan King, Sheldon Nankin, and now Carolyn Haupt who has also joined our staff. Our work has been supported by the National Science Foundation, under grants G-19080 to Stuiver and G-19335 to Deevey, and by the U. S. Atomic Energy Commission under contract AT (30–1)–2652.

Type
Research Article
Information
Radiocarbon , Volume 4 , 1962 , pp. 250 - 262
Copyright
Copyright © The American Journal of Science 

References

Broecker, W. S., and Olson, E. A., 1960, Radiocarbon from nuclear tests II: Science, v. 132, p. 712721.CrossRefGoogle ScholarPubMed
Clisby, K. H., and Foreman, , 1958, Pleistocene climatic changes in New Mexico, USA: Geobot. Inst. Rubel, Zürich, Veröffentl., no. 34, p. 2126.Google Scholar
Clisby, K. H., Foreman, Fred, and Sears, P. B., in press, Palynology-diastrophism-erosion: Internat. INQUA Congress, 6th, Warsaw 1961, Proc. Google Scholar
Collier, Donald, and Murra, J. V., 1943, Survey and excavations in southern Ecuador: Field Mus. Nat. History, Anthropol. Ser., v. 35.Google Scholar
Deevey, E. S., Stuiver, Minze, and Nakai, Noboyuki, in press, Use of light nuclides in limnology: Conf. Radioecology, 1st, Fort Collins, Colorado 1961, Proc. Google Scholar
Dorn, T. F., Fairhall, A. W., Schell, W. R., and Takashima, Y., 1962, Radiocarbon dating at the University of Washington I: Radiocarbon, v. 4, p. 112.CrossRefGoogle Scholar
Flint, R. F., and Gale, W. A., 1958, Stratigraphy and radiocarbon dates at Searles Lake, California: Am. Jour. Sci., v. 256, p. 689714.CrossRefGoogle Scholar
Godwin, Harry, and Willis, E. H., 1961, Cambridge University natural radiocarbon measurements IV: Radiocarbon, v. 3, p. 7780.CrossRefGoogle Scholar
Libby, W. F., 1954, Chicago radiocarbon dates, IV: Science, v. 119, p. 135140.CrossRefGoogle ScholarPubMed
Pandow, M., MacKay, C., and Wolfgang, Richard, 1960, The reaction of atomic carbon with oxygen: significance for the natural radiocarbon cycle: Jour. Inorg. Nuclear Chemistry, v. 14, p. 153158.CrossRefGoogle Scholar
Sears, P. B., 1961, A pollen profile from the grassland province: Science, v. 134, p. 20382040.CrossRefGoogle Scholar
Sears, P. B., and Bopp, Monika, 1960, Pollen analysis of the Michillinda peat seam: Ohio Jour. Sci., v. 60, p. 149154.Google Scholar
Stuiver, Minze, and Deevey, E. S., 1961, Yale natural radiocarbon measurements VI: Radiocarbon, v. 3, p. 126140.CrossRefGoogle Scholar
Tauber, Henrik, 1962, Latitudinal effect in the transport of radiocarbon from stratosphere to troposphere: Internatl. Atomic Energy Agency, Radioisotopes in the physical sciences and industry, p. 6774.Google Scholar
Washburn, A. L., and Stuiver, Minze, 1962, Radiocarbon-dated postglacial delevelling in northeast Greenland and its implications: Arctic, v. 15, p. 6673.CrossRefGoogle Scholar