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Doses with α-particles of plutonium anthropogenic radioisotopes to the Black Sea hydrobionts

Published online by Cambridge University Press:  06 June 2009

N. N. Tereshchenko
Affiliation:
The A.O. Kovalevsky Institute of Biology of the Southern Seas (IBSS), NAS Ukraine, Prospekt Nakhimova 2, Sevastopol 99011, Ukraine
G. G. Polikarpov
Affiliation:
The A.O. Kovalevsky Institute of Biology of the Southern Seas (IBSS), NAS Ukraine, Prospekt Nakhimova 2, Sevastopol 99011, Ukraine
G. E. Lazorenko
Affiliation:
The A.O. Kovalevsky Institute of Biology of the Southern Seas (IBSS), NAS Ukraine, Prospekt Nakhimova 2, Sevastopol 99011, Ukraine
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Abstract

The data on assessment of the irradiation doses of the Chernobyl 239,240Pu to the Black Sea hydrobionts of different trophic levels are presented. The rates of adsorbed doses of internal irradiation from the alpha-radiation of incorporated 239,240Pu to the Black Sea hydrobionts varied from 0.01 to 0.354 µGy ⋅ years-1 Comparative analysis of dose levels formed with 239,240Pu to studied hydrobionts of the Black Sea in this work and doses formed with natural alpha-emitting radionuclide of 210Po showed that 239,240Pu irradiation doses are 103–104 times lower, than irradiation doses with 210Po. Hence, doses created with 239,240Pu to the Black Sea hydrobionts were in n ⋅ 106–107 times less than the dose level offered by International Atomic Energy Agency (IAEA), at which there are no negative consequences in populations of aquatic organisms.

Type
Research Article
Copyright
© EDP Sciences, 2009

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References

G.V. Vorobjev, A.M. Dmitriev, A.S. Djakov et al., Plutonium in Russian. Ecology, economy, policy. Independent analysis ( Moskow, 1994) pp. 3–101. (In Russian)
Transuranium elements in environment edited by R.M. Alexachin (Energoatomizdat, Moscow, 1985, 343 p. (In Russian)
Radioecology after Chernobyl. Biogeochemical Pathways of Artificial Radionuclides edited by F. Warner & R.M. Harrison (SCOPE 50, publ. by John Wiley & Sons Chichester, 1993) 367 p.
N.A. Talvitie, Analitical Chemistry 43, (1991) 1827–1830.
F.I. Pavlovskaya, T.N. Goryachenkova, N.V. Fedorova et al., Radiochem. 26, (1984) 260–267. (In Russian)
B.G. Blaylock, M.L. Frank and B.R. O'Neal, “Methodology for estimating radiation dose rates to freshwater biota exposed to radionuclides in the environment” in Report ES/ER/TM-78, (Oak Ridge National Laboratory, TN, USA, 1993) 35p.
P. Thomas and Liber K., J. Environmental International 27 (2001) 341–353.
L. Arthur, Sanchez A.Z., Gastaud J. et al. (1991). Deep Sea Research. 38 (1991) S845–S853.
Marine Environmental Assesment of the Black Sea: Working Material (Produced by IAEA, Austria, Vienna, 2004) 358 p.
N.N. Tereshchenko, “Plutonium in biogenic and abiogenic components of the Black Sea coastal ecosystems”, in Proceedings of the Intern. Workshop in commemoration of Dr. Prof. Boris A. Flerov Modern problems of aquatic toxicology, Borok, 2005 (Borok, 2005) pp. 135–136.
Worldwide Marine Radioactivity Studies (WOMARS). Radionuclide Levels in Oceans and Seas (IAEA, Austria, 2005) 187 p.
Buesseler K.O. and Livingston H.D. in Radionuclides in the Oceans. Input and Inventories (Editions de Physique, France, 1996) pp. 201–217.
N.N. Tereshchenko, Scientific Transactions. 4 (2005) 243–247. (In Russian)
N.N. Tereshchenko, G.G. Polikarpov and G.E. Lasorenko, Marine Ecological Journal, IV (2007) 25–38. (In Russian)
G.E. Lazorenko, G.G Polikarpov and I. Osvath, 2003. “Doses to the Black Sea fishes and mussels from naturally occurring radionuclide 210Po”, in Proceedings of the Intern. conf. on protection of the environment from the effects of ionizing radiation, Stockholm, Sweden, 2003,( IAEA-CN-109, 2003) pp. 242–244.
IAEA, Effects of ionizing radiation on plant and animals at levels implied by current radiation protection standards in Technical Report Series No 332 ( IAEA, Vienna, 1992).
G.G. Polikarpov, Radiation Protection Dosimetry, 75 (1998) 181–185.