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TiO 纳米粒子可能会减轻模型水生植物满江红(Azolla filiculoides)共处理实验中的镉毒性。

TiO nanoparticles may alleviate cadmium toxicity in co-treatment experiments on the model hydrophyte Azolla filiculoides.

机构信息

Department of Biology, University of Pisa, Via Luca Ghini 13, 56126, Pisa, Italy.

出版信息

Environ Sci Pollut Res Int. 2019 Oct;26(29):29872-29882. doi: 10.1007/s11356-019-06148-0. Epub 2019 Aug 13.

DOI:10.1007/s11356-019-06148-0
PMID:31410835
Abstract

The hydrophyte Azolla filiculoides can be a useful model to assess if TiO NPs may in some way alleviate the Cd injuries and improve the ability of the plant to cope with this metal. With this mechanistic hypothesis, after a pre-treatment with TiO NPs, A. filiculoides plants were transferred to cadmium-contaminated water with or without TiO nanoparticles. After 5 days of treatment, cadmium uptake, morpho-anatomical, and physiological aspects were studied in plants. The continuous presence of TiO nanoparticles, though not increasing the uptake of cadmium in comparison with a priming treatment, induced a higher translocation of this heavy metal to the aerial portion. Despite the translocation factor was always well below 1, cadmium contents in the fronds, generally greater than 100 ppm, ranked A. filiculoides as a good cadmium accumulator. Higher cadmium contents in leaves did not induce damages to the photosynthetic machinery, probably thanks to a compartmentalization strategy aimed at confining most of this pollutant to less metabolically active peripheral cells. The permanence of NPs in growth medium ensured a better efficiency of the antioxidant apparatus (proline and glutathione peroxidase and catalase activities) and induced a decrease in HO content, but did not suppress TBARS level.

摘要

水生植物满江红可以作为一个有用的模型,以评估 TiO2 NPs 是否可以以某种方式减轻 Cd 伤害,并提高植物应对这种金属的能力。基于这种机制假说,在用 TiO2 NPs 预处理后,将满江红植物转移到含有或不含有 TiO2 纳米颗粒的 Cd 污染水中。处理 5 天后,研究了植物的 Cd 吸收、形态解剖和生理方面。尽管 TiO2 纳米颗粒的连续存在并没有比引发处理增加 Cd 的吸收,但它诱导了更多的这种重金属向地上部分的转运。尽管转运因子始终远低于 1,但叶中的 Cd 含量通常大于 100ppm,这表明满江红是一种良好的 Cd 积累植物。叶片中较高的 Cd 含量并没有对光合作用机制造成损害,这可能要归功于一种区室化策略,旨在将大部分污染物限制在代谢活性较低的周围细胞中。NP 在生长培养基中的存在确保了抗氧化剂设备(脯氨酸和谷胱甘肽过氧化物酶和过氧化氢酶活性)的更高效率,并降低了 HO 含量,但没有抑制 TBARS 水平。

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