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Some results of tritium researches of natural waters in Russia (1960–2010)

Published online by Cambridge University Press:  09 January 2012

V. Soyfer
Affiliation:
Pacific Oceanological Institute of Far-Eastern Branch RAS, 690041 Vladivostok, RF
V. Goryachev
Affiliation:
Pacific Oceanological Institute of Far-Eastern Branch RAS, 690041 Vladivostok, RF
S. Vakulovsky
Affiliation:
SI RPA “TYPHOON”, Obninsk, RF
I. Katrich
Affiliation:
SI RPA “TYPHOON”, Obninsk, RF
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Abstract

Original data of tritium (1H3HO, or HTO) studying (1959–2010) of both natural, and artificial (technogenic) origin in natural waters on the country territory and in the seas of the World Ocean are presented. Entry sources of cosmogenic and technogenic HTO in hydrosphere of the Earth from atmosphere and its carrying over to various links of hydrological cycle are considered. The basic laws of the space-temporal HTO distribution in surface water of the northern part of the Eurasian continent, in the seas washing Russia and in separate water areas of the World Ocean, and also in atmospheric precipitation and Antarctica’s firn snow are studied. Prevailing influence of a molecular exchange on the HTO content in the top layer of lakes, the seas and oceans and in atmospheric moisture over the ocean is shown. The theory of a multicomponent isotope balance method is developed for studying of dynamic characteristics of water objects. Priority results of tritium use in the industry (on oil deposits, collieries, mines etc.) and in researches under national and international programs (WESTPAK, SOUTHERN OCEAN, “Isotopes in deposits”, the Soviet Arctic and Antarctic expeditions) are given. Systems of national and Far East regional monitoring HTO pollution of natural waters are created. Complexes for HTO measuring with record levels of threshold sensitivity (in the late seventies sensitivity of complex POI equaled to 4 × 10−6 Bq/ml) have been developed.

Type
Research Article
Copyright
© Owned by the authors, published by EDP Sciences, 2011

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References

V. Soyfer et al. “Tritium researches of natural waters in Russia” (GEOS, Moscow, 2008), 286 p. (in Russian)
V. Soyfer. Cruise report IWPAN, IOAN, 1971 (in Russian)
V. Soyfer, et al. Atomic energy, 1980, volume 49 (1980) 303-307 (in Russian)
V.Goryachev, A. Sergeev, V. Soyfer. Second All-Union congress of ocenologists (IOAS, M. 1982) c. 107 (in Russian)
V. Tishkov. Radiochemistry, issue 1(1) – Leningrad: 1979 (in Russian)
F. Alexeev, G. Golbek, V. Soyfer et al (Proc. Int. Conf. IAEA 1960, Vienna, 1960) pp. 519-531
V. Soyfer. Radioactive isotopes and nuclear radiations in a national economy of the USSR, M, 1961, v. 4. (in Russian)
V. Romanov, V. Soyfer. Questions of nuclear geophysics. Proc. AUNGGI. Issue 4, (“Nedra”.M 1968).289-304 (in Russian)
V. Soyfer, S. Denisik, in IV All-Union symposium on geochemistry of stable isotopes, 1972. 106-108 (in Russian)
V. Soyfer et al. IV All-Union hydrological congress, Leningrad. (1976) 373-382 (in Russian)
V. Soyfer et al. Applied Radiation and Isotopes Journal, vol. 43, No. 8, (1992) 1041-1044
V. Soyfer et al, DAN USSR, volume 201, No. 1, (1971) 78–81 (in Russian)
V. Soyfer “Radioecology of northern of the Japan Sea shelf”. (“Dal’nauka”, Vladivostok, 2002) 254+2,6 Quires colour incl. (in Russian)