Development and application of an eco-hydrodynamic model for radionuclides in a brackish lake: Case study of Lake Obuchi, Japan, bordered by nuclear fuel cycling facilities</p> </p>

Summary

In order to evaluate the transport of ³H and ¹³⁷Cs radionuclides in semi-closed brackish Lake Obuchi, Japan, bordered by nuclear fuel cycling facilities, a 3D-lower-trophic eco-hydrodynamic model has been developed and validated. In a short-term prediction, ³H and ¹³⁷Cs activity levels in water should be in an agreement with field measurements. It became clear that the results depended on the mixing of fresh water and seawater in the model. Moreover, a short-term simulation estimated that most ³H and ¹³⁷Cs flowed to the ocean rather than remaining in the lake. Based on calculations over the past 50 years, a peak of ¹³⁷Cs in sediment was in 1963, when the maximum ¹³⁷Cs fallout was observed. The calculation showed a rapid decrease after that peak, however, the field measurement data gradually declined. This suggested that the process by which ¹³⁷Cs accumulated from the watershed to the lake was actually slower in the field than in the model calculations. The model may be successfully applied to a variety of different environmental situations as a generic tool for evaluating the concentration and migration of ³H and ¹³⁷Cs in a brackish lake.</p> </p>