植物中氚比活性变化的建模

O. Kryazhych, O. Kovalenko, Victoria Itskovych, Kateryna Iushchenko
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引用次数: 0

摘要

桦树汁是在春天用中型野生树木的桦树汁制成的饮料。它特别流行于北欧和亚洲的领土上,偶尔浸水渗透土壤。然而,其中一些地区恰逢有史以来氚泄漏最高的地区(凯什特姆、切尔诺贝利和福岛)。在2003年至2016年期间,对桦树汁液中的氚水平(闪烁法)进行了可靠的分析。每年按季节取样桦树汁(通常从2月的最后一周到4月的第一周)。桦树汁液的采样通常在白天气温在+(5-8)℃以内的3天内进行。在此期间,开始了密集的树液流动。所获得的数据与空气温度和湿度有关,以便有助于理解通过桦树摄入氚的基本机制。研究结果证实,氚很容易通过水渗透到任何生物体中,它在那里的积累时间比它的半衰变时间长得多。首次揭示了基于温度和湿度动态预测桦树汁液中这一危险污染物浓度的可能性。随着氚的不断输入,自由水中氚的浓度呈多项式增长。比氚活度值由于氚浓度梯度在大气-植物-地面系统中的温度和湿度变化。为组织监测和控制,确定了受影响区域放射生态安全的可能性
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The modeling of changes in the specific activity of tritium in plants
Birch juice is a drink made of birch sap of medium-sized wild trees at the springtime. It is popular especially in northern Europe and Asia on territories with occasionally waterlogged permeable soils. However, some of these areas coincide with highest tritium leakage ever recorded (Kyshtym, Chernobyl and Fukushima). Robust analyses on tritium levels (scintillation method) in the birch sap were carried out in location with a constant load of tritiated water between 2003 and 2016. Sampling the birch sap was carried out annually in season (usually from the final week of February to the first-week of April. Sampling of birch sap was usually has been carried out during the period when the daytime air temperature was within +(5–8) °C minimum for 3 days. During this period, began intensive sap flow. Data obtained is put in relation to air temperature and humidity in order to contribute to the understanding basic mechanisms of tritium intake via birch. Findings confirmed that tritium easily penetrates via water into any organism and it can accumulate there for much longer than its half-decay times. It was firstly revealed that it is possible to predict the concentration of this dangerous pollutant in the birch sap based on the temperature and humidity dynamics. And with continuous input of tritium into the environment, the concentration of tritium in free water increases polynomial. The specific tritium activity values due to the gradient of tritium concentration in the atmosphere-plant-ground system of the change in temperature and humidity. For the organization of monitoring and control, the possibility of radioecological safety for the affected areas was determined
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来源期刊
EUREKA: Physics and Engineering
EUREKA: Physics and Engineering Engineering-Engineering (all)
CiteScore
1.90
自引率
0.00%
发文量
78
审稿时长
12 weeks
期刊最新文献
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