伽马射线诱导的腐植酸二次超弱发光。

Wieslaw Goraczko, Janusz Slawiński
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摘要

腐殖质(HSs)是植物和动物残留物生化转化的产物,占环境中土壤和水生系统有机碳的主要部分。由于放射性同位素存在于地壳中,而且整个生物圈不断受到宇宙辐射的影响,电离辐射不断与腐殖质发生作用。这种慢性辐照可能会对生态产生重大影响。然而,很少有出版物涉及恒温动物长期暴露于来自陆地和宇宙的电离辐射可能产生的后果。干腐植酸(HA)或其相关水溶液(在 0.1 M Na(2)CO(3) 中)使用 (60)Co 源,以 1-90 kGy 的高剂量吸收伽马射线照射。伽马射线照射后,水溶液中记录到波长在λ= 340-650 nm 光谱范围内的二次超弱辐射发射,即长寿命化学发光(CL);然而,照射干 HA 后却未观察到化学发光。特定的CL增强剂(发光酚和荧光素)对CL强度和动力学的影响表明,活性氧和自由基参与了CL和聚合/降解过程。在所使用的吸收剂量范围(1-10 kGy)内,诱导CL的强度与剂量呈非线性关系,这表明其中涉及复杂的自由基形成机制。
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Secondary Ultraweak Luminescence from Humic Acids Induced by gamma-Radiation.

Humic substances (HSs) are products of biochemical transformations of plant and animal residues that make up a major fraction of the organic carbon of soil and aquatic systems in the environment. Because radioisotopes occur in the Earth's crust and because the entire biosphere is continuously exposed to cosmic radiation, ionizing radiation continually interacts with HSs. This chronic irradiation could have a significant ecological impact. However, very few publications are available that address possible consequences of chronic exposure of HSs to ionizing radiation from terrestrial and cosmic sources. This study was conducted to investigate possible impacts of exposure of HSs to ionizing radiation.Dried humic acid (HA) or its associated aqueous solution (in 0.1 M Na(2)CO(3)) were exposed to absorbed gamma-radiation in high doses of 1-90 kGy using a (60)Co source. Following the gamma-ray exposures, a secondary, ultraweak radiation emanation with wavelengths in the spectral range lambda= 340-650 nm was recorded as a long-lived chemiluminescence (CL) from the aqueous solutions; however, the CL was not observed after irradiating dry HA.Absorption spectra (for lambda=240-800 nm) of irradiated solutions indicated that polymerization/degradation processes were operating on the HA macromolecules. The effect of specific CL enhancers (luminol and lucigenin) on the intensity and kinetics of the CL implicated the participation of reactive oxygen species and free radicals in the CL and polymerization/degradation processes. For the range of absorbed doses used (1-10 kGy), the intensity of the induced CL was nonlinearly related to dose, suggesting that complex radical formation mechanisms were involved.

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