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Concentrations of 90 Sr and 137 Cs/ 90 Sr activity ratios in marine fishes after the Fukushima Dai‐ichi Nuclear Power Plant accident
Author(s) -
Miki Shizuho,
Fujimoto Ken,
Shigenobu Yuya,
Ambe Daisuke,
Kaeriyama Hideki,
Takagi Kaori,
Ono Tsuneo,
Watanabe Tomowo,
Sugisaki Hiroya,
Morita Takami
Publication year - 2017
Publication title -
fisheries oceanography
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.016
H-Index - 80
eISSN - 1365-2419
pISSN - 1054-6006
DOI - 10.1111/fog.12182
Subject(s) - strontium , isotopes of strontium , fukushima nuclear accident , caesium , strontium 90 , nuclear power plant , radiochemistry , environmental chemistry , seawater , zoology , environmental science , radionuclide , oceanography , chemistry , biology , geology , physics , nuclear physics
Strontium‐90 ( 90 Sr) was released together with radioactive cesium (Cs) from the Fukushima Dai‐ichi Nuclear Power Plant ( FNPP ) accident. Although the total amount of 90 Sr released into the marine environment from the FNPP was estimated to be a factor of 100 lower than that of 137 Cs, the public have been concerned about the safety of commercial species because of the tendency of accumulation in bones of organisms, its long physical half‐life and less information about 90 Sr concentrations in commercial species. In this study, we investigated the concentrations of 90 Sr in marine fishes off Japan before and after the FNPP accident. Except for within a 20‐km radius from the FNPP , 90 Sr concentrations higher than the background level (<0.046 Bq kg −1 wet) were only detected in 4 of 26 specimens collected off Fukushima. Furthermore, 90 Sr concentrations in all samples collected outside of Fukushima were under the detection limit (<0.040 Bq kg −1 wet). Also, the concentrations of 90 Sr in marine fishes were notably lower than those of 137 Cs, and thus the activity ratios of 137 Cs to 90 Sr in the whole body of teleost fishes were 5–190 times higher than that of before the accident. The activity ratio tended to decrease owing to a decrease in the 137 Cs concentration in marine fish. Our result together with ananalysis of other data sets indicated that the influence of the FNPP accident on 90 Sr in marine fishes was limited to the area near the FNPP and outside of the FNPP harbor area can be considered as negligible.