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La Jolla Natural Radiocarbon Measurements X

Published online by Cambridge University Press:  18 July 2016

T W Linick
T W Linick*
Affiliation:
Mt Soledad Radiocarbon Laboratory, University of California, San Diego, La Jolla, California 92093
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The following date list covers samples dated by the La Jolla (Mt Soledad) Radiocarbon Laboratory from January 1979 through August 1982. Most archaeologic, most geologic, and some geochemical samples measured during that period are included here. Results of 14C analyses of samples of tree rings, banded coral rings, and Antarctic seawater dissolved inorganic carbon measured during this period will be published elsewhere. Because of the cessation of all federal grant funding of this laboratory, this is the last date list to be published by it.

Type
Date Lists
Information
Radiocarbon , Volume 26 , Issue 1 , 1984 , pp. 75 - 110
Copyright
Copyright © The American Journal of Science 

References

Berger, W H and Killingley, J S, 1982, Box cores from the equatorial Pacific: 14C sedimentation rates and benthic mixing: Marine Geol, v 45, p 93125.Google Scholar
Cayman, Wendell, 1979, Investigation of the age of Late Quaternary movements on the La Nación Fault, San Diego, California: Sea Sci Services tech rept, 12 P.Google Scholar
Huber, P J, 1982, Astronomical dating of Babylon I and Ur III, in Buccellati, Giorgio, ed, Occasional papers on the Near East, Monographic journals of the Near East: Undena Pubs, v 1, no. 4, 199 P.Google Scholar
Johnson, T C, Hamilton, E L, and Berger, W H, 1977, Physical properties of calcareous ooze: control by dissolution at depth: Marine Geol, v 24, p 259277.Google Scholar
Klein, Jeffrey, Lerman, J C, Damon, P E, and Ralph, E K, 1982, Calibration of radiocarbon dates: tables based on the consensus data of the Workshop on Calibrating the Radiocarbon Time Scale: Radiocarbon, v 24, p 103150.Google Scholar
Linick, T W, 1977, La Jolla natural radiocarbon measurements VII: Radiocarbon, v 19, p 1948.Google Scholar
Linick, T W, 1979, La Jolla natural radiocarbon measurements VII-I: Radiocarbon, v 21, p 186202.Google Scholar
Linick, T W, 1980, La Jolla natural radiocarbon measurements IX: Radiocarbon, v 22, p 10341044.Google Scholar
Peng, T-H, Broecker, W S, and Berger, W H, 1979, Rates of benthic mixing in deep sea sediment as determined by radioactive tracers: Quaternary Research, v 11, p 141149.Google Scholar
Stuiver, Minze, 1982, A high-precision calibration of the AD radiocarbon time scale: Radiocarbon, v 24, p 126.Google Scholar
Suess, H E, 1979, A calibration table for conventional radiocarbon dates, in Berger, Rainer, and Suess, H E, eds, Radiocarbon dating, Internatl conf on radiocarbon dating, 9th, Proc: Berkeley/Los Angeles, Univ California Press, p 777784.Google Scholar
Venkatesan, M I, Linick, T W, Suess, H E, and Buccellati, Giorgio, 1982, Asphalt in carbon-14-dated archaeological samples from Terqa, Syria: Nature, v 295, p 517519.Google Scholar
Wiesberg, L H G and Linick, T W, 1983, The question of diffuse secondary growth of palm trees: Radiocarbon, v 25, p 803809.Google Scholar
Williams, P M, Smith, K L, Druffel, E M, and Linick, T W, 1981, Dietary carbon sources of mussel and tubeworms from Galápagos hydrothermal vents determined from tissue 14C activity: Nature, v 292, p 448449.Google Scholar
Williams, P M, Stenhouse, M C, Druffel, E M, and Koide, M, 1978, Organic 14C activity in an abyssal marine sediment: Nature, v 276, p 698701.Google Scholar