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Reidar Nydal (1926–2004)

Published online by Cambridge University Press:  18 July 2016

E Marian Scott
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Abstract

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Type
Obituary
Information
Radiocarbon , Volume 46 , Issue 3: IntCal04: Calibration Issue, Guest Editor: PAULA J REIMER , 2004 , pp. ix - xi
Copyright
Copyright © The Arizona Board of Regents on behalf of the University of Arizona 

References

RADIOCARBON BIBLIOGRAPHY

Bergh, R, Nydal, R. 1989. Atmospheric CO2 exchange with the biosphere and the ocean. Radiocarbon 31(3): 503–9.Google Scholar
Gulliksen, S, Nydal, R, Lövseth, K. 1975. Trondheim natural radiocarbon measurements VII. Radiocarbon 17(3):364–95.Google Scholar
Gulliksen, S, Nydal, R, Lövseth, K. 1978. Trondheim natural radiocarbon measurements VIII. Radiocarbon 20(1):105–33.CrossRefGoogle Scholar
Johansen, OS, Gulliksen, S, Nydal, R. 1986. δ13C and diet: analysis of Norweigian skeletons. Radiocarbon 28(2A):754–61.CrossRefGoogle Scholar
Kalish, JM, Nydal, R, Nedreaas, KH, Burr, GS, Eine, GL. 2001. Time history of pre- and post-bomb radiocarbon in the Barents Sea derived from Arcto-Norwegian cod otoliths. Radiocarbon 43(2B):843–55.CrossRefGoogle Scholar
Meijer, HAJ, van der Plicht, J, Gislefoss, JS, Nydal, R. 1995. Comparing long-term atmospheric 14C and 3H records near Groningen, the Netherlands with Fruholmen, Norway and Izaña, Canary Islands 14C stations. Radiocarbon 37(1):3950.CrossRefGoogle Scholar
Nydal, R. 1959. Trondheim natural radiocarbon measurements I. Radiocarbon 1(1):7680.Google Scholar
Nydal, R. 1960. Trondheim natural radiocarbon measurements II. Radiocarbon 2(1):8296.Google Scholar
Nydal, R. 1962. Trondheim natural radiocarbon measurements III. Radiocarbon 4(1):160–81.Google Scholar
Nydal, R. 1983. The radon problem in 14C dating. Radiocarbon 25(2):501–10.CrossRefGoogle Scholar
Nydal, R. 1989. A critical review of radiocarbon dating of a Norse settlement at L'Anse aux Meadows, New-foundland, Canada. Radiocarbon 31(3):976–85.CrossRefGoogle Scholar
Nydal, R. 2000. Radiocarbon in the ocean. Radiocarbon 42(1):8198.Google Scholar
Nydal, R, Gislefoss, JS. 1986. Further application of bomb radiocarbon as a tracer in the atmosphere and ocean. Radiocarbon 38(3):389406.Google Scholar
Nydal, R, Gislefoss, J, Skjelvan, I, Skogseth, F, Jull, AJT, Donahue, DJ. 1992. 14C profiles in the Norwegian and Greenland Seas by conventional and AMS measurements. Radiocarbon 34(3):717–26.Google Scholar
Nydal, R, Gulliksen, S, Lövseth, K. 1972. Trondheim natural radiocarbon measurements VI. Radiocarbon 14(2):418–51.CrossRefGoogle Scholar
Nydal, R, Gulliksen, S, Lövseth, K. 1980. An analysis of shielding efficiency for 14C counters. Radiocarbon 22(2):470–8.Google Scholar
Nydal, R, Gulliksen, S, Lövseth, K, Skogseth, FH. 1984. Bomb 14C in the ocean surface, 1966–1981. Radiocarbon 26(1):745.Google Scholar
Nydal, R, Gulliksen, S, Lövseth, K, Skogseth, F. 1985. Trondheim natural radiocarbon measurements IX. Radiocarbon 27(3):525609.Google Scholar
Nydal, R, Lövseth, K, Skogseth, FH. 1980. Transfer of bomb 14C to the ocean surface. Radiocarbon 22(3): 626–35.CrossRefGoogle Scholar
Nydal, R, Lövseth, K, Skullerud, KE, Holm, M. 1964. Trondheim natural radiocarbon measurements I V. Radiocarbon 6(1):280–90.CrossRefGoogle Scholar
Nydal, R, Lövseth, K, Syrstad, O. 1970. Trondheim natural radiocarbon measurements V. Radiocarbon 12(1): 205–37.Google Scholar