Languages:
 

Figure 6. Averaged 137Cs activity concentrations in fish from Kyiv reservoir (UHMI 2004)

- in non-predatory fish (Bream)

fish

-in predatory fish (Pike)

fish

Source: UN Chernobyl Forum   Chernobyl’s Legacy: Health, Environmental and Socio-economic Impacts (2006), p.26

Related publication:
Chernobyl homeChernobyl Nuclear Accident
Other Figures & Tables on this publication:

Figure 1. Surface-ground deposition of 137Cs throughout Europe as a result of the Chernobyl accident (De Cort et al. 1998)

Figure 2. Pathways of exposure to man from environmental releases of radioactive materials

Figure 3. Incidence rate of thyroid cancer in children and adolescents exposed to 131I as a result of the Chernobyl accident (Jacob et al., )

Figure 4. Prevalence at birth of congenital malformations in 4 oblasts of Belarus with high and low levels of radio nuclide contamination (Lazjuk et al., 1999)

Figure 5. Reduction with time of 137Cs activity concentration in milk produced in private and collective farms of the Rovno region of Ukraine with a comparison to the temporary permissible level (TPL)

Figure 6. Averaged 137Cs activity concentrations in fish from Kyiv reservoir (UHMI 2004)

Figure 7. Changes with time in the use of Prussian blue in the CIS countries (IAEA, )

Figure 10. What worries you most today?

Where is Chernobyl located?

Administrative regions surrounding the Chernobyl reactor

Table: Summary of average accumulated doses to affected populations from Chernobyl fallout

Table: Chernobyl-related construction, 1986-2000

Figure 1. Surface-ground deposition of 137Cs throughout Europe as a result of the Chernobyl accident (De Cort et al. 1998)

Major radioactive substances released by the Chernobyl accident

Radiation Units

Footnote