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Original Articles

A history of atmospheric tritium gas (HT) 1950–2002

, &
Pages 183-193 | Received 13 Jun 2003, Accepted 21 Jan 2004, Published online: 18 Jan 2017

References

  • Adushkin, V. V. and Leith, W. 2001. The Containment of Soviet Under-ground Nuclear Explosions. United States Geological Survey Open File Report 01–312
  • Begemann, E and Friedman, I. 1959. Tritium and deuterium content of atmospheric hydrogen. Z. Naturforsch. 14a, 1024–1031.
  • Begemann, E and Friedman, I. 1968. Isotopic composition of atmospheric hydrogen. J. Geophys. Res. 73, 1139–1147.
  • Begemann, E and Libby, W. E 1957. Continental water balance, ground water inventory and storage times, surface ocean mixing rates and world wide water circulation patterns from cosmic-ray and bomb tritium. Geochim. Cosmochim. Acta 12, 277–296.
  • Ehhalt, D. H. 1966. Tritium and deuterium in atmospheric hydrogen. Tellus 18, 249–255.
  • Ehhalt, D., Israel, G., Roether, W. and Stich, W. 1963. Tritium and deuterium content of atmospheric hydrogen. J. Geophys. Res. 68, 3747–3751.
  • Ehhalt, D. H., Davidson, D. A., Cantrell, C. A., Friedman, I. and Tyler, S. 1989. The kinetic isotope effect in the reaction of 112 with OH. J. Geophys. Res. 94, 9831–9836.
  • Fallon, R. D. 1982. Molecular tritium uptake in southeastern US soils. Soil Biol. Biochem. 14, 553–556.
  • Faltings, V. and Harteck, P. 1950. Der Tritium gehalt der Atmosphare. Z. Naturforsch. 52, 438–439.
  • Fireman, E. L. and Rowland, E S. 1961. An additional measurement of the tritium content of atmospheric hydrogen of 1949. J. Geophys. Res. 66,4321.
  • Friedman, I. and Scholz, T. G. 1974. Isotopic composition of atmospheric hydrogen, 1967-1969. J. Geophys. Res. 79, 785–788.
  • Gerst, P. and Quay, P. 2001. Deuterium component of the global molecular hydrogen cycle. J. Geophys. Res. 106(D5), 5021–5031.
  • Gonsior, B. 1959. Tritium-anstieg im atmospharischen Wasserstoff. Naturwissenschaften 46, 201–202.
  • Gonsior, B. and Friedman, I. 1962. Tritium and Deuterium im atmospharischen Wasserstoff. Z. Naturforsch. A. 17, 1088–1091.
  • Grosse, A. V., Johnston, W. M. and Wolfgang, R. L. 1951. Tritium in nature. Science 113, 1–2.
  • Grosse, A. V., Kirshenbaum, A. D., Kulp, J. L. and Broecker, W. S. 1954. The natural tritium content of atmospheric hydrogen. Phys. Rev. 93, 250–251.
  • Jacobson, W. R. 1976. Environmental Effects of a Tritium Gas Release from the SRP on December 31, 1975. United States Department of Energy Report DP-1415.
  • Kaufman, S. and Libby, W. E 1954. The natural distribution of tritium. Phys. Rev. 93, 1337–1344.
  • Layton, B.R. 1969. Tritium in atmospheric hydrogen and atmospheric water, MS thesis, University of Arkansas, USA.
  • Lucas, L. L. and Unterweger, M. P. 2000. Comprehensive review and critical evaluation of the half-life of tritium. J. Res. Natl. Inst. Stand. Technol. 105, 541–549.
  • Marter, W. L. 1974. Environmental Effects of a Tritium Gas Release from the SRP on May 2, 1974. United States Department of Energy Report DP-1369.
  • Mason, A. S. 1977. Atmospheric HT and HTO 4: estimation of atmospheric hydrogen residence time from interhemispheric tritium gas transport. J. Geophys. Res. 82, 5913–5916.
  • Mason, A. S. and östlund, H. G. 1974. Atmospheric HT and HTO: Major HT injections into the atmosphere 1973. Geophys. Res. Lett. 1, 247–248.
  • Mason, A. S., Hut, G. and Telegadas, K. 1982. Stratospheric HTO and 95Zr residence times. Tellus 34, 369–375.
  • McFarlane, J. C., Rogers, R. D. and Bradley, D. V. 1979. Tritium oxidation in surface soils. A survey of soils near five nuclear fuel reprocessing plants. Environ. Sci. Tech. 13, 607–608.
  • Mikhail, V. N. 1999. Catalog of Worldwide Nuclear Testing. Begell House, New York.
  • Novelli, P. C., Lang, P. M., Masarie, K. A., Hurst, D. E, Myers, R. and Elkins, J. W. 1999. Molecular hydrogen in the troposphere: global budget and distribution. J. Geophys. Res. 104(D23), 30 427-30 444.
  • östlund, H. G. and Dorsey, H. G. 1977. Rapid electrolytic enrichment and hydrogen gas proportional counting of tritium. In: Low-radioactivity Measurements and Applications: Proc. Int. Conf. High Tatras, 1975, Slovenske Pedagogocke Nakladatelstvo, Bratislava.
  • östlund, H. G. and Mason, A. S. 1974. Atmospheric HT and HTO: I. Experimental procedures and tropospheric data 1968-1972. Tellus 26, 91–102.
  • östlund, H. G. and Mason, A. S. 1977. Atmospheric distribution of HTO and HT. In: Low-radioactivity Measurements and Applications: Proc. Int. Conf. High Tatras, 1975, Slovenske Pedagogocke Nakladatelstvo, Bratislava.
  • östlund, H. G. and Mason, A. S. 1985. Atmospheric tritium 1968-1984. In: Tritium Laboratory Data Report Vol. 14, University of Miami, Rosenstiel School of Marine and Atmospheric Chemistry, Miami, FL.
  • östlund, H. G. and Werner, E. 1962. The electrolytic enrichment of tritium and deuterium for natural tritium measurements. In: Tritium in the Physical and Biological Sciences. International Atomic Energy Agency, Vienna, 95–104.
  • Schoengold, C. R., DeMarre, M. E. and Kirckwood, E. M. 1996. Radiological Effluents release from U.S. Continental Tests 1961 Through 1992, United States Department of Energy Report NV-317 (Rev. 1).
  • Tate, P. J. 1999. Environmental Monitoring Plan. Lawrence Livermore National Laboratory Report UCRL-ID-106132 Rev 2.
  • UNSCEAR 2000. Sources and Effects ofionizing Radiation: United Nations Scientific Committee on the Effects of Atomic Radiation, Volume I: Sources, United Nations, New York.