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Table of Contents
Part 1 Atmospheric transport and fallout of radionuclides
1 Air dose rate in Fukushima Prefecture measured during March 2011, the first organized measurement after Fukushima Daiichi Nuclear Power Plant accident
2 Atmospheric transport and deposition of Fukushima-derived radionuclides
3 Airborne radiation survey after the accident
Part 2 Fate and transport of radionuclides in soil-water environment
4 Behavior of Fukushima-derived radiocesium in the soil-water environment: Review
5 Dynamics of radiocesium solidliquid distribution coefficient in a soil-water environment
6 An overview of Fukushima-derived strontium radioisotopes
7 Erosion and redeposition of sediments and sediment-associated radiocesium on river floodplains (the Niida River basin and the Abukuma River as an example)
Part 3 Radionuclide behavior in freshwater environment
8 Dynamics of radiocesium in urban river in Fukushima-city
9 Temporal variations in particulate and dissolved 137Cs activity concentrations in the Abukuma River during two high-flow events in 2018
10 The effect of groundwater bypass at the Fukushima Daiichi Nuclear Power Plant in 2014 by detailed facies analysis and 3D groundwater simulation
11 Modeling of behavior of Fukushima-derived radionuclides in freshwater
Part 4 Radionuclide behavior in coastal and marine environment
12 Spatiotemporal variation of radiocesium in coastal and oceanic seawater
13 Spatiotemporal variation of radiocesium in coastal marine sediment
14 Cesium radioactivity in marine and freshwater products and its relation to the restoration of fisheries in Fukushima: A decade review
Part 5 Radionuclide transfer in agricultural environment
15 Spatial distribution and temporal change of 137Cs activity concentration in dissolved and suspended fractions of irrigation waters collected from Fukushima
16 Mineralogical factors controlling the ability to retain 137Cs in Andosols in Japan
17 Soil Properties Affecting Soil-to-Crop Transfer of Fukushima-Derived Radiocesium
18 Model of radionuclide uptake by plants via foliar pathway: Kyshtym, Chernobyl, Fukushima
Part 6 Radionuclide transfer in terrestrial environment
19 Behavior of Fukushima-derived radiocesium in forest ecosystems
20 Radiocesium contamination in wild rodents inhabiting forested areas inside the evacuated area in Fukushima, Japan
21 Concentrations and transfer parameters of 137Cs for wild boar
22 Variation of cesium-137 concentration in wild boar and Asian black bear
23 Physicochemical fractions of radiocesium in the stomach con-tents of wild boar and its transfer to muscle tissue.
1 Air dose rate in Fukushima Prefecture measured during March 2011, the first organized measurement after Fukushima Daiichi Nuclear Power Plant accident
2 Atmospheric transport and deposition of Fukushima-derived radionuclides
3 Airborne radiation survey after the accident
Part 2 Fate and transport of radionuclides in soil-water environment
4 Behavior of Fukushima-derived radiocesium in the soil-water environment: Review
5 Dynamics of radiocesium solidliquid distribution coefficient in a soil-water environment
6 An overview of Fukushima-derived strontium radioisotopes
7 Erosion and redeposition of sediments and sediment-associated radiocesium on river floodplains (the Niida River basin and the Abukuma River as an example)
Part 3 Radionuclide behavior in freshwater environment
8 Dynamics of radiocesium in urban river in Fukushima-city
9 Temporal variations in particulate and dissolved 137Cs activity concentrations in the Abukuma River during two high-flow events in 2018
10 The effect of groundwater bypass at the Fukushima Daiichi Nuclear Power Plant in 2014 by detailed facies analysis and 3D groundwater simulation
11 Modeling of behavior of Fukushima-derived radionuclides in freshwater
Part 4 Radionuclide behavior in coastal and marine environment
12 Spatiotemporal variation of radiocesium in coastal and oceanic seawater
13 Spatiotemporal variation of radiocesium in coastal marine sediment
14 Cesium radioactivity in marine and freshwater products and its relation to the restoration of fisheries in Fukushima: A decade review
Part 5 Radionuclide transfer in agricultural environment
15 Spatial distribution and temporal change of 137Cs activity concentration in dissolved and suspended fractions of irrigation waters collected from Fukushima
16 Mineralogical factors controlling the ability to retain 137Cs in Andosols in Japan
17 Soil Properties Affecting Soil-to-Crop Transfer of Fukushima-Derived Radiocesium
18 Model of radionuclide uptake by plants via foliar pathway: Kyshtym, Chernobyl, Fukushima
Part 6 Radionuclide transfer in terrestrial environment
19 Behavior of Fukushima-derived radiocesium in forest ecosystems
20 Radiocesium contamination in wild rodents inhabiting forested areas inside the evacuated area in Fukushima, Japan
21 Concentrations and transfer parameters of 137Cs for wild boar
22 Variation of cesium-137 concentration in wild boar and Asian black bear
23 Physicochemical fractions of radiocesium in the stomach con-tents of wild boar and its transfer to muscle tissue.