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11.
利用电子显微镜和银染技术研究HTO对莱哈衣藻核仁纤维区的辐射效应。结果显示:分裂间期衣藻核仁纤维区为由细线样结构组成的索状结构;衣藻细胞在含低剂量HTO(370kBq/mL)培养基培养1400h以后,间期核仁纤维区索状结构变得膨松,体积增大;经含中剂量HTO(3700kBq/mL)培养1400h以后,纤维区索状结构明显解体,轮廓变得不清晰;经含高剂量HTO(37000kBq/mL)培养基培养1400h后,纤维区索状结构完全解体,呈现出松散的细线样结构,同时参与rRNA合成的一种酸性蛋白明显减少,结果表明,衣藻细胞分裂间期的核仁纤维区对HTO的辐射作用是敏感的。 相似文献
12.
A numerical model simulating transport of tritiated water (HTO) in atmosphere-soil-vegetation system, and, accumulation of organically bound tritium (OBT) in vegetative leaves was developed. Characteristic of the model is, for calculating tritium transport, it incorporates a dynamical atmosphere-soil-vegetation model (SOLVEG-II) that calculates transport of heat and water, and, exchange of CO2. The processes included for calculating tissue free water tritium (TFWT) in leaves are HTO exchange between canopy air and leaf cellular water, root uptake of aqueous HTO in soil, photosynthetic assimilation of TFWT into OBT, and, TFWT formation from OBT through respiration. Tritium fluxes at the last two processes are input to a carbohydrate compartment model in leaves that calculates OBT translocation from leaves and allocation in them, by using photosynthesis and respiration rate in leaves. The developed model was then validated through a simulation of an existing experiment of acute exposure of grape plants to atmospheric HTO. Calculated TFWT concentration in leaves increased soon after the start of HTO exposure, reaching to equilibrium with the atmospheric HTO within a few hours, and then rapidly decreased after the end of the exposure. Calculated non-exchangeable OBT amount in leaves linearly increased during the exposure, and after the exposure, rapidly decreased in daytime, and, moderately nighttime. These variations in the calculated TFWT concentrations and OBT amounts, each mainly controlled by HTO exchange between canopy air and leaf cellular water and by carbohydrates translocation from leaves, fairly agreed with the observations within average errors of a factor of two. 相似文献
13.
为了探明HTO在海洋环境中的行为,采用同位素示踪技术研究了5种海洋贝类对HTO的吸收和贝类组织中结合态氚的形成动态.结果显示:贝类组织中的氚以自由水氚(即HTO)和结合态氚形式存在,以自由水氚为主,其量占贝类中总氚比活度的97.4%以上,结合态氚的含量很低,仅占贝类中总氚比活度的0.4%~2.6%.海洋贝类对自由水氚的吸收速度非常快,仅2h有3种贝类(青蛤、紫贻贝和焦河蓝蛤)已达最大值.结合态氚的形成和积累随时间呈缓慢增长的趋势.富集系数(CF)值分析表明,海洋贝类对HTO没有明显的富集作用. 相似文献