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Title: Radiological dose rates to marine fish from the Fukushima Daiichi Accident: the first three years across the North Pacific
Authors: Johansen, MP
Ruedig, E
Tagami, K
Uchida, S
Higley, K
Beresford, NA
Keywords: Anatomy
Aquatic ecosystems
Fukushima Daiichi Nuclear Power Station
Pacific Ocean
Issue Date: 22-Dec-2014
Publisher: American Chemical Society
Citation: Johansen, M. P., Ruedig, E., Tagami, K., Uchida, S., Higley. K., & Beresford, N. A. (2015). Radiological dose rates to marine fish from the Fukushima Daiichi Accident: the first three years across the North Pacific. Environmental Science & Technology 49(3): 1277-1285. doi:10.1021/es505064d
Abstract: A more complete record is emerging of radionuclide measurements in fish tissue, sediment, and seawater samples from near the Fukushima Daiichi Nuclear Power Plant (FDNPP) and across the Pacific Ocean. Our analysis of publicly available data indicates the dose rates to the most impacted fish species near the FDNPP (median 1.1 mGy d–1, 2012–2014 data) have remained above benchmark levels for potential dose effects at least three years longer than was indicated by previous, data-limited evaluations. Dose rates from 134,137Cs were highest in demersal species with sediment-associated food chains and feeding behaviors. In addition to 134,137Cs, the radionuclide 90Sr was estimated to contribute up to approximately one-half of the total 2013 dose rate to fish near the FDNPP. Mesopelagic fish 100–200 km east of the FDNPP, coastal fish in the Aleutian Islands (3300 km), and trans-Pacific migratory species all had increased dose rates as a consequence of the FDNPP accident, but their total dose rates remained dominated by background radionuclides. A hypothetical human consumer of 50 kg of fish, gathered 3 km from the FDNPP in 2013, would have received a total committed effective dose of approximately 0.95 mSv a–1 from combined FDNPP and ambient radionuclides, of which 0.13 mSv a–1 (14%) was solely from the FDNPP radionuclides and below the 1 mSv a–1 benchmark for public exposure. © 2014 American Chemical Society
Gov't Doc #: 9505
ISSN: 0013-936X
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