@article{Tereshchenko_2020, title={Application of the G. G. Polikarpov conceptual model of chronic action zonality of ionizing irradiation doze rates to biosphere objects in applied hydrobiology}, volume={5}, url={https://marine-biology.ru/mbj/article/view/251}, DOI={10.21072/mbj.2020.05.3.08}, abstractNote={<p>Evolution of the approach to assessing ionizing radiation effects on living organisms is briefly discussed in this paper. Using the example of Black Sea hydrobionts, possibility of applying the G. G. Polikarpov conceptual radiochemoecological model of chronic action zonality of ionizing irradiation dose rates in nature to assess ecological exposure of technogenic radioisotopes ionizing radiation on aquatic biota was shown. In applied hydrobiology, this model can serve as the basis for a complex approach in assessing aquatic biota ecological state and its prediction for a wide range of <sup>239,240</sup>Pu activity concentration in seawater. The necessity of combined use of biogeochemical and equidosimetric indicators of radionuclide behavior in a water area is emphasized. In particular, for predictive dosimetric assessments, it is important to take into account quantitative characteristics of accumulative ability of Black Sea hydrobionts and a type of radioelement biogeochemical behavior, reflecting peculiarities of plutonium biogeochemical migration in a marine ecosystem.</p>}, number={3}, journal={Marine Biological Journal}, author={Tereshchenko, N. N.}, year={2020}, month={Sep.}, pages={85–100} }