RADIATION & RISK
Bulletin of the National Radiation and Epidemiological Registry
since 1992

Approaches to optimizing radioecological survey of territories with various elements of agrolandscapes contaminated by Cs-137

«Radiation and Risk», 2025, vol. 34, No. 1, pp.69-81

DOI: 10.21870/0131-3878-2025-34-1-69-81

Authors

Spiridonov S.I. – Chief Researcher, D. Sc., Biol., Prof. Contacts: 1, Kievskoe shosse, Obninsk, Kaluga region, Russia, 249035. Tel.: +7 (484) 399-69-67; e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. .
Titov I.E. – Researcher
Krechetnikov V.V. – Researcher
Mikailova R.A. – Researcher. NRC “Kurchatov Institute” – RIRAE.
Russian Institute of Radiology and Agroecology of National Research Centre “Kurchatov Institute”, Obninsk

Abstract

The paper justifies the necessity of developing approaches to the radioecological assessment of 137Cs-contaminated agricultural lands with pronounced landscape features. The main goal is to balance the statistical validity of the results while reducing the material and time costs of field and desk work. A set of methodological principles have been formulated to serve as the foundation for such assessment. They include the application of a probabilistic approach, identification of conditionally homogeneous areas, recognition of the universality of the log-normal law, and a strong focus on optimizing the estimation of probability distribution parameters. The prerequisites for formulating these principles are the patterns of 137Cs distribution in the soil, established in the course of analysing the consequences of radiation accidents, and the relationship between the in situ measured ambient dose equivalent rate and the "labor-intensive" indicator – the 137Cs content in the soil. The paper presents the stages of radiological assessment of agricultural lands with different elements of agrolandscapes during the long-term postaccident period. The implementation of the developed procedure requires several key components. These include a GIS project that integrates agroecological data, methods for gathering experimental information and conducting statistical analysis of empirical samples, as well as techniques for estimating the parameters of log-normal distributions of 137Cs content in conditionally homogeneous soil areas. The final stage involves calculating the risks of exceeding the standards for 137Cs content in agricultural products, based on the characteristics of the distributions of this radionuclide in soil across different elements of agrolandscapes. It is recommended to use a set of statistical models as a calculation tool to solve three interrelated tasks: assessing radioecological risks, determining the maximum soil contamination density, and estimating the time for self-remediation of agricultural land.

Key words
137Cs coil contamination, elements of agrolandscape, optimization of radioecological survey, probabilistic approach, log-normal distribution, risk of exceeding standards, statistical models, radiobiology, environmental health.

References

1. Radioecological consequences of the Chernobyl accident: biological effects, migration, rehabilitation of con-taminated areas. Eds.: Corr. member of RAS N.I. Sanzharova, Prof. S.V. Fesenko. Moscow, RAS, 2018. 278 p. (In Russian).

2. Hygienic requirements to safety and nutritional value of food products. Sanitary and epidemiological standards and regulations SanPiN 2.3.2.1078-01. Moscow, FSUE “InterSEN”, 2002. 168 p. (In Russian).

3. Veterinary regulations for ensuring radiation safety of animals and products of animal origin. State system of veterinary regulation of the Russian Federation. Radiation safety. Moscow, Ministry of Agriculture and Food of Russia, 2001. 55 p. (In Russian).

4. Knyazeva E.P., Kolomeychenko V.V., Kuznetsov V.K. Current conditions of natural forage lands under nuclear pollution in the central Russian upland. Kormoproizvodstvo – Fodder Production, 2016, no. 9, pp. 12-17. (In Russian).

5. Fesenko S.V., Chernyaeva L.G., Sanzharova N.I., Aleksakhin R.M. A probabilistic approach to predicting radioactive contamination of agricultural products. Atomnaya energiya – Atomic Energy, 1993, vol. 34, no. 6, pp. 507-513. (In Russian).

6. Spiridonov S.I., Ivanov V.V., Titov I.E., Nushtaeva V.E. Radioecological assessment of forage agricultural land in the southwestern areas of the Bryansk region based on a set of statistical models. Radiatsiya i risk – Radiation and Risk, 2021, vol. 30, no. 2, pp. 38-49. (In Russian).

7. Spiridonov S.I., Ivanov V.V., Titov I.E. Statistical forecasting of 137Cs accumulation in crop production on radioactively contaminated lands. Meditsinskaya radiologiya i radiatsionnaya bezopasnost’ – Medical Radiology and Radiation Safety, 2022, vol. 67, no. 2, pp. 10-17. (In Russian).

8. Ivanov V.V., Spiridonov S.I., Kurtmulaeva V.E. Computer code for efficiency assessment of rehabilitation actions on radioactively contaminated agricultural lands. Agrokhimicheskij vestnik – Agrochemical Herald, 2016, no. 2, pp. 23-26. (In Russian).

9. Quantification of radionuclide transfer in terrestrial and freshwater environments for radiological assessments. Vienna, IAEA, 2009. 625 p.

10. Handbook of parameter values for prediction of radionuclide transfer in terrestrial and freshwater environ-ments. Vienna, IAEA, 2010. 208 p.

11. Spiridonov S.I., Ivanov V.V. Probabilistic assessment of radionuclide accumulation in agricultural products and permissible levels of radioactive contamination of soils. Radiatsionnaya Biologiya. Radioekologiya – Radiation Biology. Radioecology, 2013, vol. 53, no. 1, pp. 95-103. (In Russian).

12. Khomutinin Yu.V., Kashparov V.A., Zhebrovskaya E.I. Optimization of samples selection and measure-ment during the radioecological monitoring. Kyiv, VІPOL, 2001. 160 p. (In Russian).

13. Kuznetsov V.K., Spiridonov S.I., Ivanov V.V., Sanzharov A.I., Knyazeva E.P. Distribution dynamics of 137Cs in the soil profile of virgin chernozem. Agrokhimicheskij vestnik – Agrochemical Herald, 2020, no. 4, pp. 12-15. (In Russian).

14. Spiridonov S.I., Krechetnikov V.V., Titov I.E., Kuznetsov V.K. Forecast of vertical migration of 137Cs of the Chernobyl origin in soils of plain and accumulative agrolandscapes of the Plavsk radioactive spot. Agrokhimicheskij vestnik – Agrochemical Herald, 2022, no. 5, pp. 77-82. (In Russian).

15. Daniels W.M., Higgins N.A. Environmental distribution and the practical utilisation of detection limited envi-ronmental measurement data. Chilton: NRPB, 2002.

16. Grubich A. Statistical and structural properties of radionuclide deposition. Eur. Researcher, 2014, vol. 73, no. 4-2, pp. 720-735.

17. Grubich A., Makarevich V.I., Zhukova O.M. Description of spatial patterns of radionuclide deposition by lognormal distribution and hot spots. J. Environ. Radioact., 2013, vol. 126, pp. 264-272.

18. Mory A., Takahara S., Ishizaki A., Iijima M., Sanada Y., Munakata M. Assessment of residual doses to population after decontamination in Fukushima Prefecture. J. Environ. Radioact., 2017, vol. 166, pp. 74-82.

19. Spiridonov S.I., Titov I.E., Krechetnikov V.V., Kuznetsov V.K. Assessment of risks of radioactive conta-mination of agricultural products for territories with landscape features. Agrokhimicheskij vestnik – Agroche-mical Herald, 2023, no. 6, pp. 37-43. (In Russian).

20. Kuznetsov V.K., Knyazeva E.P., Sanzharov A.I., Krechetnikova E.O., Tsvetnova O.B. Dynamics of 137Cs distribution in the soils of the Tula region before and after the Chernobyl accident. Vestnik Moskovskogo universiteta (Seriya 17. Pochvovedenie) – Moscow University Bulletin. Series 17. Soil science, 2022, no. 4, pp. 31-38. (In Russian).

21. Ramzaev V.P., Barkovsky A.N., Bratilova A.A. Ambient dose equivalent rate and soil contamination density with 137Cs in kitchen gardens in settlements of the Bryansk region, Russia in 2020–2021. Radiatsionnaya Gygiena – Radiation Hygiene, 2021, vol. 14, no. 4, pp. 85-95. (In Russian).

22. Krechetnikova E.O., Krechetnikov V.V., Titov I.E., Kuznetsov V.K. Geoinformation system for designing adaptive landscape farming systems on the radioactively contaminated territory of the Tula research institute of agriculture. Geoinformatika, 2020, no. 4, pp. 12-19. (In Russian).

23. Krechetnikova E.O., Krechetnikov V.V., Kuznetsov V.K., Titov I.E. Ecological and agronomic geoinfor-mation system of radioactively contaminated lands of Tula Research Institute. Geoinformatika, 2023, no. 4, pp. 52-60. (In Russian).

Full-text article (in Russian)