Background maps of point-based radionuclide inventories in soils (134Cs + 137Cs, 110mAg) designed in this study (Fig.
1, Fig. 2, Fig. 3, Fig. 4 and Fig. 7) were drawn from data provided by MEXT for these 2200 investigated locations. We hypothesized that those radionuclides were concentrated in the soil upper 2 cm layer, and that soils had a mean bulk density of 1.15 g.cm−3 based on data collected in the area Alectinib research buy (Kato et al., 2011; Matsunaga et al., 2013). Within this set of 2200 soil samples, 110mAg activities were only reported for a selection of 345 samples that were counted long enough to detect this radioisotope (Fig. 3 and Fig. 4). All activities were decay corrected to 14 June 2011. A map of total radiocaesium activities was interpolated across the entire study area by performing ordinary kriging to appreciate regional fallout patterns in soils (Fig. 1, Fig. 2 and Fig. 7; Chilès and Delfiner, 1988 and Goovaerts, 1997). A cross validation was then applied to the original data to corroborate the variogram model. The mean error (R) was defined as follows (Eq. Apoptosis inhibitor (1)): equation(1) R=1n∑i=1nz*(xi)−z(xi),where z*(xi) is the estimated value at xi, and z(xi) is the measured value at xi. The ratio of the mean squared error to the kriging
variance was calculated as described in Eq. (2): equation(2) SR2=1n∑i=1n[z*(xi)−z(xi)]2σk2(xi),where σ2k(xi) is the theoretical estimation variance for the prediction of z*(xi). The temporal evolution of contamination in rivers draining the main radioactive plume was analyzed based on samples (described in Section 2.2) taken after the main erosive events which were expected to affect this area (i.e., the summer typhoons and the
spring snowmelt). During the first fieldwork campaign in November 2011, we travelled through the entire area where access was unrestricted (i.e., outside the area of 20-km radius centred on FDNPP; Fig. 1b) Olopatadine and that potentially drained the main radioactive plume of Fukushima Prefecture, i.e. the Abukuma River basin (5200 km2), and the coastal catchments (Mano, Nitta and Ota Rivers, covering a total area of 525 km2). Those systems drain to the Pacific Ocean from an upstream altitude of 1835 m a.s.l. Woodland (79%) and cropland (18%) represent the main land uses in the area. Mean annual precipitation varies appreciably across the study area (1100–2000 mm), in response to the high variation of altitude and relief and the associated variable importance of snowfall. During the second campaign (April 2012), based on the results of the first survey, the size and the delineation of the study area were adapted for a set of practical, logistical and safety reasons.