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本文报道了用特定电磁辐射对发芽过程中的大豆进行处理后所引起的大豆根部与下胚轴细胞亚显微结构的变化。在电子显微镜下观察发现,与参照组样品比较,经过特定电磁辐射处理的样品细胞中线粒体数量显著增多。并发现,经过300瓦特定电磁辐射器辐射照度为28mW/cm~2的处理后,样品下胚轴细胞中出现了少量线粒体膨胀与破裂现象。 实验证明,经过这种辐射处理的植株较之参照组植株明显的结荚早,数量多。在对细胞亚显微结构与样品生长情况进行对照分析后指出,采用适当辐射波长范围与适当辐射照度的电磁辐射去影响生长过程中的大豆植株细胞的亚显微结构,将提供大豆早熟、增产的又一个新的可能。
In this paper, the changes of sub-microstructure of soybean root and hypocotyl cells caused by the treatment of soybean during germination with specific electromagnetic radiation were reported. Observation under an electron microscope revealed a significant increase in the number of mitochondria in the sample cells treated with the specific electromagnetic radiation as compared with the reference group samples. And found that after 300 watts of specific electromagnetic radiation irradiance of 28mW / cm ~ 2 treatment, a small amount of mitochondrial swelling and rupture occurred in the sample hypocotyl cells. Experiments show that after radiation treatment of plants than the reference group obvious pod early, the number of more. After analyzing the cell sub-microstructure and the growth of the sample, it is pointed out that the use of appropriate radiation wavelength range and electromagnetic radiation of appropriate irradiance to affect the sub-microstructure of the soybean plant cells during growth will provide soybean premature, Another new possibility.