The upper bounds represent the levels determined for silty clays, and the lower bounds represent the levels determined for coarse sands, where all other sediment types modeled lie between these two boundaries.
The dark lines represent the mean values for the range of sediments modeled, and correspond to the values shown in Fig. 3. The areas of seafloor shown in Fig. 5A and B both have high levels of 137Cs recorded at the bases of vertical terrain features. The region in Fig. 5A, labeled A in Fig. 3 and Fig. 4, is an 8 m high southward facing feature of the terrain located 5.9 km from shore and 3.7 km north of F1NPP. While the levels of 137Cs on top of the feature average 65 ± 9 Bq/kg (where the range of values represents measurement uncertainty), the average level of 137Cs measured at its base within 320 m of the feature TSA HDAC research buy is 524 ± 63 Bq/kg, with a maximum value of 985 ± 118 Bq/kg in this patch. Another anomaly was mapped
a few 100 m further on from the feature. The patch is 70 m in length, and averages 651 ± 77 Bq/kg with a maximum 137Cs level of 1,432 ± 173 Bq/kg. The results show that the terrain strongly influences the level of 137Cs, with more than an order of magnitude difference in the levels measured on top and at the base of the feature. Similar observations were made for the seafloor shown in Fig. 5B, which is a 3.5 m high feature located 3.2 km east of F1NPP. This region serves as a boundary for the radiation levels, with the seafloor on the plant GSK J4 cost side of the feature, 1.7–3.2 km
from the plant along this transect averaging 446 ± 62 Bq/kg, and the levels on the Teicoplanin other side of the feature, 3.4–4.9 km from the plant yielding an average of 133 ± 17 Bq/kg. The level of 137Cs at the base of the feature has a maximum value of 2276 ± 266 Bq/kg, with an average of 1534 ± 175 Bq/kg over the 70 m long patch. The seafloor in Fig. 5C shows an anomaly in a depression located 10.3 km east and 0.7 km north of the F1NPP. The highest level of 137Cs in this patch is 1190 ± 136 Bq/kg, with an average of 508 ± 58 Bq/kg over the 105 m length of the anomaly measured along the transect. Here the size of the depression bounds the dimensions of the anomaly, and it is clear that features of the terrain influence not only the distribution, but also the size of the anomalies identified in this work. In addition to terrain related anomalies, anomalies have also been identified in areas with no noticeable features of the seafloor. The seafloor shown in Fig. 5D, located 1.6 km east of the F1NPP between 0.2 km and 2.2 km south of the plant, has particularly high levels of 137Cs averaging 528 ± 67 Bq/kg. The highest level of 137Cs recorded in this region is 40,152 ± 3998 Bq/kg, with two other locations nearby where the levels of 137Cs measured are >5000 Bq/kg.