![]() Pu, Ra, Ru, Sb, Sr and Th-implications for uncertainty analysis of models simulating the transport of radionuclides in rivers. įukushima T, Arai H (2014) Radiocesium contamination of lake sediments and fish following the Fukushima nuclear accident and their partition coefficient. ![]() Ganzha C, Gudkov D, Ganzha D, Klenus V, Nazarov A (2014) Physicochemical forms of Sr-90 and Cs-137 in components of Glyboke Lake ecosystem in the Chornobyl exclusion zone. Hakanson L, Sazykina TG, Kryshev II (2002) A general approach to transform a lake model for one radionuclide (radiocesium) to another (radio strontium) and critical model tests using data for four Ural lakes contaminated by the fallout from the Kyshtym accident in 1957. Hesthagen T, Heggenes J, Larsen BM, Berger HM, Forseth T (1999) Effects of water chemistry and habitat on the density of young brown trout Salmo trutta in acidic streams. International Atomic Energy Agency, Vienna IAEA (2010) Handbook of parameter values for the prediction of radionuclide transfer in terrestrial and freshwater environments. Konoplev AV, Bulgakov AA, Popov VE, Popov OF, Scherbak AV, Shveikin YV, Hoffman FO (1996) Model testing using Chernobyl data.1. Wash-off of Sr-90 and Cs-137 from two experimental plots established ln the vicinity of the Chernobyl reactor. Matsuda K et al (2015) Comparison of radioactive cesium contamination of lake water, bottom sediment, plankton, and freshwater fish among lakes of Fukushima Prefecture, Japan after the Fukushima fallout. Miro C, Baeza A, Madruga MJ, Perianez R (2012) Caesium-137 and Strontium-90 temporal series in the Tagus River: experimental results and a modelling study. ![]() ![]() ![]() Monte L (1997) A collective model for predicting the long-term behaviour of radionuclides in rivers. Monte L (1998) Predicting the long term behaviour of Sr-90 in lacustrine systems by a collective model. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |