Accumulation of Cs-137 and Sr-90 by lettuce culture from radioactively contaminated soils of the former Semipalatinsk test site

Tatiana Sergeevna Ponomareva, E. Polivkina, R. Kenzhebaev, L.A. Nemytova, E. S. Sysoeva, Aksana Romanovna Ivanova
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Abstract

Under conditions of a simulated pot experiment in the case of salad (Lactuca sativa), quantitative parameters of Cs-137 and Sr-90 (Tf) accumulation by plants on soils from the former Semipalatinsk Test Site territory were obtained. The variation range of Tf values derived for soil samples from different STS areas was 2 orders of magnitude for Cs-137 and 1 order of magnitude for Sr-90. Using nonparametric statistical analytical techniques, determinants of the transfer of Cs-137 and Sr-90from soil to plants for STS soils with various natures of radioactive contamination were identified. The content of biologically available species of radionuclides has a significant effect on the accumulation of Cs-137 and Sr-90by salad. Values derived for Kendall correlation coefficients showed a complete functional dependence (r=1, n=4, p<0,05) between accumulation parameters and the content of biologically available species of Cs-137 and Sr-90in soil from radioactively contaminated test site areas. The use of partial correlation coefficients allowed identification of key soil contributors to the content of available speciation and, respectively, the accumulation of Cs-137 and Sr-90by the experimental crop: for 137Cs, the common content of K (rxy-z = -0,81); for Sr-90 — the common content of Ca (r xy-z = — 0,64). Findings reveal the main mechanisms of Cs-137 and Sr-90transfer from soil to plants, which are of great practical importance in the radio ecological monitoring and planning of rehabilitation measures taken in radioactively contaminated STS areas as well as in areas impacted by nuclear fuel cycle facilities (NFC) located under similar soil and climatic conditions.
前塞米巴拉金斯克试验场放射性污染土壤中生菜培养对Cs-137和Sr-90的积累
在模拟盆栽试验条件下,获得了植物在原塞米巴拉金斯克试验场土壤中Cs-137和Sr-90 (Tf)积累的定量参数。不同STS区土壤样品的Tf值变化幅度Cs-137为2个数量级,Sr-90为1个数量级。利用非参数统计分析技术,确定了具有不同放射性污染性质的STS土壤中Cs-137和sr -90从土壤向植物转移的决定因素。生物有效种放射性核素的含量对沙拉中Cs-137和sr -90的积累有显著影响。Kendall相关系数的值显示,累积参数与放射性污染试验区土壤中Cs-137和sr -90的生物有效种含量之间存在完全的函数依赖关系(r=1, n=4, p< 0.05)。部分相关系数的使用可以识别出影响有效物种含量的关键土壤因素,以及试验作物对Cs-137和sr -90的积累:对于137Cs, K的共同含量(rxy-z = -0,81);Sr-90 - Ca的共同含量(r xy-z = - 0,64)。研究结果揭示了Cs-137和sr -90从土壤向植物转移的主要机制,对放射性污染地区以及类似土壤和气候条件下受核燃料循环设施影响地区的放射性生态监测和修复措施规划具有重要的现实意义。
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