[1] Yang Z-J (杨振姣), Luo L-Y (罗玲云). The impact analysis of Japan nuclear leak on the marine ecological security. Pacific Journal (太平洋学报), 2011, 19(11): 92-101 (in Chinese) [2] Wang C-L (王春琳), Shi J-J (史建君), Sun P-Y (孙平跃), et al. Dynamics of 95Zr in simulated marine water-sediment-organisms system. Chinese Journal of Applied Ecology (应用生态学报), 2003, 14(6): 977-981 (in Chinese) [3] Qiao F-L (乔方利), Wang G-S (王关锁), Zhao W (赵 伟), et al. Predicting the spread of nuclear radiation from the damaged Fukushima Nuclear Power Plant. Chinese Science Bulletin (科学通报), 2011, 56(12): 887-894 (in Chinese) [4] Tang F-H (唐峰华), Jin S-F (靳少非), Zhang S-M (张胜茂), et al. Study for marine environmental elements on spatio-temporal distribution of neon flying squid in the north Pacific fishing ground. China Environmental Science (中国环境科学), 2014, 34(8): 2093-2100 (in Chinese) [5] Yatsu A, Watanabe T, Mori J, et al. Interannual variability in stock abundance of the neon flying squid (Ommastrephes bartramii), in the North Pacific Ocean during 1979-1998: Impact of driftnet fishing and oceanographic conditions. Fisheries Oceanography, 2000, 9:163-170 [6] Lu H-J (陆化杰), Chen X-J (陈新军), Ma J (马 金). Trace elements in the statoliths of neon flying squid, Ommastrephes bartramii in the Northwest Pacific Ocean. Chinese Journal of Applied Ecology (应用生态学报), 2014, 25(8): 2411-2417 (in Chinese) [7] Zou S-M (邹淑美). Artificial radionuclides in marine fish. Marine Environmental Science (海洋环境科学), 1984, 3(1): 66-77 (in Chinese) [8] Orr B, Schoppner M, Tinker R, et al. Detection of ra-dioxenon in Darwin, Australia following the Fukushima Dai-ichi nuclear power plant accident. Journal of Environment Radioactivity, 2013, 126: 40-44 [9] Yoshida N, Kanda J. Tracking the Fukushima radionuclides. Science, 2012, 336: 1115-1116 [10] Buesseler K. Fukushima and ocean radioactivity. Oceanography, 2014, 27: 92-105 [11] Yang B-L (杨宝路), Ha Y-M (哈益明), Zhang S-S (张松山), et al. The current research situation on 137Cs-polution of marine products in China. Journal of Nuclear Agricultural Sciences (核农学报), 2013, 27(12): 1887-1891 (in Chinese) [12] Wu M He JH, Wang FF, et al. Radioactive status of seawater in the northwest Pacific more than one year after the Fukushima nuclear accident. Scientific Reports, 2015, 5: 7757-7757 [13] State Bureau of Technical Supervision (国家技术监督局), Ministry of Health of the People’s Republic of China (中华人民共和国卫生部). Water Radionuclide Gamma Energy Spectrum Analysis Method (GB/T 16145). Beijing: China Standards Press, 1995 (in Chinese) [14] International Atomic Energy Agency(IAEA). Certified reference material for radionuclides in fish flesh sample IAEA-414 (mixed fish from the Irish Sea and North Sea). Applied Radiation and Isotopes, 2006, 64: 1253-1259 [15] Xu H-N (徐虹霓), Yu T (于 涛). Ecological risk assessment of marine organisms and radioactive monitoring progress after Japan’s Fukushima. Shenzhen: China Environmental Science Society Academic Essays, 2015: 1824-1835 (in Chinese) [16] Larsson CM. An overview of the ERICA Integrated Approach to the assessment and management of environmental from ionizing contaminants. Journal of Environment al Radioactivity, 2008, 99: 1364-1370 [17] Kamenik J, Dulaiova H, Buesseler KO, et al. Cesium-134 and 137 activities in the central North Pacific Ocean after the Fukushima Dai-ichi nuclear power plant accident. Biogeosciences, 2013, 10: 6045-6052 [18] Ramzaev V, Nikitin A, Sevastyanov A, et al. Shipboard determination of radiocesium in seawater after the Fukushima accident: Results from the 2011-2012 Russian expeditions to the Sea of Japan and western North Pacific Ocean. Journal of Environmental Radioactivity, 2014, 135: 13-24 [19] Tang F-H (唐峰华), Wang J-L (王锦龙), Liu D-T (刘丹彤), et al. Distribution of Fukushima accident-derived radionuclides in neon flying squid in the North Pacific Ocean. Journal of Agro-Environment Science (农业环境科学学报), 2013, 32(10): 2066-2071 (in Chinese) [20] Shi J-J (史建君). Nuclear accident empact on the ecological environment. Journal of Nuclear Agricultural Sciences (核农学报), 2011, 25(2): 397-403 (in Chinese) [21] Morino Y, Ohara T, Nishizawa M. Atmospheric beha-vior, deposition, and budget of radioactive materials from the Fukushima Daiichi nuclear power plant in March 2011. Geophysical Research Letters, 2011, 38: L00G11 [22] Wu Q (武 权), Liu Q-F (刘庆芬), Zhang X-D (张晓东), et al. Radionuclide content and limit standard for the food in our country. Carcinogenesis, Teratogenesis & Mutagenesis (癌变·畸变·突变), 2012, 24(6): 470-473 (in Chinese) [23] Povinec P, Aoyama M, Biddulph D, et al. Cesium, iodine and tritium in NW Pacific waters: A comparison of the Fukushima impact with global fallout. Biogeoscien-ces, 2013, 10: 5481-5496 [24] Aoyama M, Tsumune D, Uematsu M, et al. Temporal variation of l34Cs and l37Cs activities in surface water at stations along the coastline near the Fukushima Dai-ichi Nuclear Power Plant accident site, Japan. Geochemical Journal, 2012, 46: 321-325 [25] Buesseler KO, Jayne SR, Fisher NS, et al. Fukushima-derived radionuclides in the ocean and biota off Japan. Proceedings of the National Academy of Sciences of the United States of America, 2012, 109: 5984-5988 [26] Wakeford R. And now, Fukushima. Journal of Radiological Protection, 2011, 31: 167-176 [27] Kanda J. Continuing 137Cs release to the sea from the Fukushima Dai-ichi Nuclear Power Plant through 2012. Biogeosciences, 2013, 10: 6107-6113 [28] Burns PC, Ewing RC, Navrotsky A. Nuclear fuel in a reactor accident. Science, 2012, 335: 1184-1188 [29] Lin W-H (林武辉), Chen L-Q (陈立奇), Yu W (余雯), et al. Radioactive source-term of the Fukushima nuclear accident. Science China: Earth Sciences (中国科学:地球科学), 2015, 45(12): 1875-1885 (in Chinese) [30] Xu H-Y (徐红云), Zhou W-F (周为峰), Ji S-J (纪世建). Review of estimation on oceanic primary productivity by using remote sensing methods. Chinese Journal of Applied Ecology (应用生态学报), 2016, 27(9): 3042-3050 (in Chinese) |