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低剂量^(60)Co-γ辐射种子预处理对黑麦草紫外线B辐射伤害的保护作用 被引量:5

Effect of Seed Pre-treatment by Low-dose Gamma-ray Radiation on Reduction of Ultraviolet-B Caused Injury in Ryegrass Seedlings
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摘要 将经过低剂量60Co-γ辐射(0、5、10、20和30 Gy)种子预处理的黑麦草(Lolium perenne L.,品种‘Victorian’)幼苗在室内控制条件下进行紫外线B辐射[6.5 kJ/(m2.d)]处理。UV-B辐射导致严重的苗体伤害,比如衰老加快、生长抑制和膜脂过氧化,然而低剂量的60Co-γ辐射(LDG)种子预处理显著降低了苗体UV-B伤害,尤其是20和30 Gy(1 Gy=1 J/kg)。抗坏血酸和UV吸收化合物在LDG处理下显著升高,UV化合物进一步被UV-B辐射提高了2倍以上;30 Gy处理的叶片光合色素一直维持在较高的水平。因此我们推测植株UV-B耐性在LDG处理下的提高至少部分归咎于抗坏血酸和UV化合物含量的提高,以及保持高水平光合色素的能力。本研究还探讨了LDG和UV-B复合处理的耐性机制。 Ryegrass ( Lolium perenne L. , cv.‘ Victorian' ) seedlings from seed pretreated with low-dose gamma irradiation (LDG) were exposed to 6.5 kJ/( m^2· d) UV-B radiation under controlled environmental conditions. The high level of UV-B radiation caused serious plant injury, such as acceleration of senescence, growth inhibition and lipid oxidation of cell membrane, but the UV-B induced injury was alleviated significantly by LDG-pretreatment, in particularly by 20 and 30 Gy ( 1 Gy = 1 J/kg). Both ascorbic acid (AA) and UV-absorbing compounds were increased by LDG-pretreatment, and the later were further enhanced by UV-B irradiation. Under UV-B exposure the levels of photosynthetic pigments remained high in the seedling with seed-pretreatment by 30 Gy. We suggest that increased plant tolerance to UV-B damage caused by LDG pretreatment may be due in part to higher contents of ascorbic acid and UV-absorbing compounds, and the ability to maintain high levels of photosynthetic pigments. The possible implications of these observations are discussed.
作者 姚银安 杨爱华 徐刚
机构地区 贵州大学农学院 绿色农药与农业生物工程教育部重点实验室/贵州大学精细化工研究开发中心
出处 《种子》 CSCD 北大核心 2008年第12期25-29,共5页 Seed
基金 贵州省自然基金(No.20072048) 贵州省农业科技攻关项目(No.200803)
关键词 黑麦草 低剂量^60Co-γ辐射 种子预处理 UV-B辐射 ryegrass (Lolium perenne ) low dose ^60Co-γradiation (LDG) seed pretreatment UV-B radiation
分类号 Q945 [生物学—植物学]
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参考文献25

  • 1付彦荣,韩益,孙振元,蔡汉,赵梁军.Co^60-γ辐射对五叶地锦种子发芽和M1性状的影响[J].中国农学通报,2004,20(6):73-76. 被引量:10
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