俄罗斯“切尔诺贝利足迹”地区辐射生态状况评估(1986-2020年)

I. Kryshev, A. Buryakova, T. Sazykina
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引用次数: 1

摘要

本文考虑了位于俄罗斯“切尔诺贝利足迹”地区的当前环境状况。在“足迹”的不同部分,辐射污染从禁区的最高水平到低水平放射性污染地区的接近本底水平不等。以布良斯克、卡卢加、图拉、奥廖尔和诺夫哥罗德地区居民区附近的环境监测数据和计算的土壤放射性核素污染密度作为参考数据,评估参考生物物种的辐射剂量率和生态风险:麋鹿(Alces Alces)、红背鼠(Myodes glareolus)、大天使冷杉(Pinus sylvestris)、斑鸠(Lumbricus terrestris)、梭子鱼(Esox lucius)和淡水兵(Stratiotes aloides)。综合污染指数,即已登记的放射性核素污染密度与参考水平之比的总和,被用作领土放射生态安全的指标。根据水文气象建议R-52.18.853-2016进行计算。对生物群和生态危害的最高剂量记录在1986年。1986年5月,布良斯克地区受污染最严重地区对一些脊椎动物的辐射剂量率超过了每天1毫戈瑞的生态安全辐射水平。1986年5月至12月期间居住在隔离区以外的参考生物物种的剂量低于放射生态安全水平。131I和其他短寿命放射性核素衰变后,137Cs成为生物群剂量的基本贡献者。1986-2020年期间,由于放射性核素的物理衰变,对地面的辐射剂量率和放射性生态安全指数逐渐下降。目前污染最严重地区陆地生物的辐射剂量平均比脊椎动物的安全辐射剂量低一个数量级,比大天使冷杉的安全辐射剂量低两个数量级,比土壤无脊椎动物的安全辐射剂量低三个数量级。科扎诺夫斯科湖是受放射性沉降污染最严重的地区之一,目前对湖中鱼类的辐射剂量率比安全水平低两个数量级,对藻类的辐射剂量率比安全水平低三个数量级,但仍高于本底水平。目前切尔诺贝利放射性“足迹”地区的综合污染指数是不均匀的。目前大部分污染地区的综合污染指数比生态安全水平低几十倍,低辐射污染地区的综合污染指数比生态安全水平低几百倍。在布良斯克地区的一些地区,指数最高,但低于生态安全水平,而在一些隔离区,指数超过了生态安全水平。这些场址是辐射生态研究、环境监测和辐射防护发展的独特天然试验场。在这方面,建议继续对环境的辐射防护进行长期研究和开发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of radioecological situation in the areas of the “Chernobyl footprint” in Russia (1986-2020)
The current environmental situation in areas located in the “Chernobyl footprint” in Russia is con-sidered in the paper. Radiation contamination in different parts of the “footprint” varies from the maximum level in the exclusion zones to the level close to the background in areas with low level of radioactive contamination. Environmental monitoring data and calculated density of soil con-tamination with radionuclides in the vicinities of residential areas in Bryansk, Kaluga, Tula, Orel and Novgorod regions were used as reference data for assessment of radiation dose rates and ecological risks for the reference biological species: the elk (Alces alces), red-backed mouse (Myodes glareolus), the Archangel fir (Pinus sylvestris), brandling (Lumbricus terrestris), the pike (Esox lucius), and the fresh-water soldier (Stratiotes aloides). The integrated contamination index, that is the sum of ratios of registered radionuclides contamination density to the reference levels, was used as the indicator of territory radioecological safety. The calculation was made in accord-ance with the Roshydromet Recommendations R-52.18.853-2016. The highest doses to the biota and ecological risks were registered in 1986. Radiation dose rates to some vertebrates in the most contaminated districts of the Bryansk region in May 1986 exceeded ecologically safe radiation level of 1 mGy/day. Doses to reference biological species inhabited outside exclusion zones within the period of May-December 1986 were lower than the radioecological safety level. After decay of 131I and other short-lived radionuclides 137Cs became the basic contributor to the biota dose. Radiation dose rate to the terrestrials and radio-ecological safety index gradually decreased due to radionuclides physical decay over the period of 1986-2020. Current radiation doses to the terrestrials inhabited the most contaminated districts were, on average, one order below the safe radiation dose to the vertebrates, two orders below the safety radiation level to the Archangel fir and three orders be-low the safety radiation dose to the soil invertebrates. Current radiation dose rates to inhabitants of the lake of Kozhanovskoe, one of the most contaminated areas due to the radioactive fallout, current radiation dose rates to the lake fish were two orders below the safe level, radiation dose rates to algae were three orders below the safety level, however, they still are above the back-ground level. Current indices of integrated contamination in areas of the Chernobyl radioactive “footprint” are inhomogeneous. Current indices of integrated contamination in the majority of contaminates areas are dozens times and the indices in low radiation contaminated areas are hundreds times lower than ecological safety level. The highest indices occur in a number of dis-tricts of Bryansk region but they are lower than ecological safety level, however in some sites in exclusion zones the indices exceed the ecological safety level. These sites are unique natural testing grounds for radio-ecological research and monitoring of the environment and radiation protection development. In this connection it is recommended to continue long term research and development of radiological protection of the environment.
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