Bioaccumulation of <sup>137</sup>Cs: Vegetation Responses, Soil Interactions and Ecological Implications in the Northern Taiga Ecosystems

Bioaccumulation of <sup>137</sup>Cs: Vegetation Responses, Soil Interactions and Ecological Implications in the Northern Taiga Ecosystems

This study presents the first comprehensive examination of <sup>137</sup>Cs behavior in northern taiga ecosystems of the Kola Peninsula, a previously understudied region regarding radionuclide mobility. The background radioactive contamination of these ecosystems stems from global fallou...

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Bibliographic Details
Main Authors: Marina Popova, Nikita R. Kriuchkov, Ivan Myasnikov, Alexei Kizeev, Svetlana Ushamova, Dmitriy Manakhov
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Life
Subjects:
radioactive contamination
transfer factor
aggregated transfer factor
northern taiga
Arctic ecosystems
correlation analysis
Online Access:https://www.mdpi.com/2075-1729/15/5/774
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Summary:This study presents the first comprehensive examination of <sup>137</sup>Cs behavior in northern taiga ecosystems of the Kola Peninsula, a previously understudied region regarding radionuclide mobility. The background radioactive contamination of these ecosystems stems from global fallout and differs from more extensively studied contaminated areas. Twelve monitoring sites at varying distances from the Kola nuclear power plant were established to assess <sup>137</sup>Cs accumulation in dominant plant species across three forest tiers. Gamma-spectrometric measurements revealed high mobility of <sup>137</sup>Cs with specific activity ranging within 4.7–34.5 Bq/kg in trees, 8.4–164.8 Bq/kg in shrubs, and 15.0–94.5 Bq/kg in mosses. Notably, Ericaceae family plants demonstrated the highest accumulation capacity. <sup>137</sup>Cs concentrations were significantly higher at the background site (30 km from the power plant) than in the sanitary protection zone, indicating no detectable influence from the nuclear facility. Strong correlations (up to |rs| = 0.93) between bioaccumulation indicators and soil properties were found—particularly with potassium content, exchangeable cation concentration, and organic matter content—suggesting that soil characteristics primarily determine <sup>137</sup>Cs mobility. These findings highlight the potential risk of <sup>137</sup>Cs movement through food chains in northern taiga ecosystems, with bioaccumulation coefficients exceeding those of central Russian landscapes and being comparable to those of Scandinavian taiga ecosystems.
ISSN:2075-1729

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