摘要
研究了低能氮离子束、紫外线与γ射线辐照对黑松花粉萌发和花粉管生长的影响。结果表明,低能氮离子注入对黑松花粉的损伤效应与γ射线和紫外线照射的不同,主要表现在氮离子束剂量-萌发率效应曲线呈"马鞍型"和氮离子束注入诱发花粉管顶端肿胀,这说明低能离子束的作用机制可能与γ射线和紫外线的不同。认为花粉是研究离子注入生物学效应机制的理想模式系统。
The effect of 30 keV nitrogen ion beams, UV and γ-rays irradiation on pollen germination and pollen tube growth of Pinus thunbergii were investigated. Results showed that the biological effects induced by ion beam implantation were different from those induced by UV and γ-rays irradiation. The dose response curve of ion implantation treatment presented a particular 'saddle-like'pattern, and ion implantation also significantly induced pollen tube tip swelling. These results indicated that low energy ion implantation might work in different way compared to UV and γ-rays irradiation. It was suggested that pollen could be served as an excellent model system to study the underlying mechanisms responsible for biological effects of ion beam irradiation at cellular level.
出处
《核农学报》
CAS
CSCD
北大核心
2008年第4期432-434,409,F0003,共5页
Journal of Nuclear Agricultural Sciences
基金
福建省自然科学基金项目(B0610031)
福建省莆田市科技项目(2006N17)
关键词
黑松
花粉
花粉管
离子注入
Γ射线辐照
紫外线辐照
Pinus thunbergii Parl.
pollen
pollen tube
ion implantation
γ-rays irradiation
ultraviolet irradiation
