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BIBLIOGRAFIA

[1]    International Nuclear Safery Advisoiy Group (1986). Summary Report on the Post-Accident Review Meeting on the Chernobyl Accident International Atomie Energy Agency, Safety Series No. 75, Vienna, Austria.

[2]    Raport Komisji Rządowej (1986). Komisja Rządowa do Spraw Oceny Promieniowania Jądrowego i Działań Profilaktycznych. Warszawa.

[3]    IAEA (1982). Generic models and Parameters for Assessing the Environmental Transfer of Radionu clides from Routine Releases. Safety Series No. 57, International Atomie Energy Agency, Vienna, Austria.

[4]    IAEA (1989). Evaluating the Reliability of Predictions Madę Using Environmental Transfer Models, Safety Series No. 100, International Atomie Energy Agency, Vienna, Austria.

[5]    IAEA (1995). Validation of multiple pathways assessement models using Chernobyl fallout data from the Central Bohemia of Czech Republic - Scenario CB. First raport of the VAMP Multiple Patways Assessement Group. IAEA-TECDOC-795, International Atomie Energy Agency, Vienna, Austria.

[6]    Hoffman, F.W. et al. (1983). The Transfer of ⁶⁰Co, ⁹⁰Sr, ¹³¹I and ¹³⁷Cs through Terrestrial Food Chains, A Comparison of Model Predictions, Swedish Report STUDSVIK/NW-83/417, Studsvik Energiteknik AB, Sweden.

[7]    BIOMOVS II. (1993). Guildness for Uncertainty Analisis Development for Participants in the BIOMOVS II Study, BIOMOVS II Technical Report No. 1, Swedisch Radiation Protection Institute, Stockholm, Sweden.

[8]    BIOMOVS II. (1995). Qualitative and Quantitative Guidelines for the Comparison of Environmental Model Predictions. BIOMOVS II Technical Report No. 3, Swedisch Radiation Protection Institute, Stockholm, Sweden.

[9]    BIOMOVS II. (1996). Uncertainity and Validation: Effect of Model Complexity on Uncertainty Estimates. BIOMOVS II Technical Report No. 16, Swedisch Radiation Protection Institute, Stockholm, Sweden.

[10]    IAEA (1994). Handbook of Parameter Values for The Prediction of Radionuclide Transfer In Temperate Environments. Technical Reports Series No 364, International Atomie Energy Agency, Vienna, Austria.

[11]    Van Bergeijk, K.E., Noordijk, H., Lembrechts, J., Frissel, M.J. (1992). Influence of pH, Soil Type and Soil Organie Matter Content On Soil-to-Plant Transfer of Radiocesium and -Strontium as Analysed by a Nonparametric Method, Journal of Environmental Radioactivity, 15, 265-276.

[12]    ICRP 56 (1989). Age-dependent Doses to Member of the Public from Intake of Radionuclides, Part 1. ICRP Publication 56, International Commission on Radiological Protection.

[13]    S.M. Wright, A.G. Gillett, R.C. Creamer, A.L. Sanchez, N.M.J. Crout, P. Krajewski, I. Malatova, R. Mirchi, B. Kanyar, A. Nenyei And B.J. Howard, Development Of Critical Loads Maps For Radiocaesium For Czech Republic, Hungary And Poland, Deliverable For The Spatial Analysis Of Vulnerable Areas In Central Europę, Project EU Contract Number: Erb Icl5-Ct98-0206, November 1999

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