摘要
增强的UV-B辐射明显降低柚树苗的株高,叶面积,比叶面积,增加叶片厚度和叶肉密度。柚树苗叶片叶绿素,可溶性蛋白含量和硝酸还原酶活性降低,可溶性糖含量上升。不同品种柚苗对UV-B辐射反应存在差异,酸柚抗性较强。经UV-B增强处理后,叶片Pn值下降,Rd先上升后恢复原有水平。Fv/Fm,ФPSⅡ,qp均有不同程度的降低,而qN和Kp升高,表明增强UV-B导致那PSⅡ失活,PSⅡ原初光化学效率、开放PSⅡ中心数目和非环式电子传递效率下降。部分激发能通过非光化学荧光碎灭形式耗散。UV-B辐射使叶片膜脂过氧化产物MDA含量大幅度上升。SOD和APX活性在处理初期提高,随后下降,初步推测:增强UV-B辐射诱导膜脂过氧化作用,攻击光合作用中心靶点并导致PSⅡ失活,进而降低植物光合能力和物质代谢强度,最终导致袖树苗生长受到抑制。
Enhanced UV -B radiation significantly decreased plant weight, leaf area, and specific leaf area of pomelo seedlings, increased leaf thickness and mesophyll density. The contents of chloro- phyll, soluble proteins and the activity of NR were reduced, soluble sugar content was increased. Dif- ferent responses to UV -B were existed among different pomelo cultivars. Under enhanced UV - Btreatment, leaf Pn was declined, Rd increased at first, then returned original standard. Fv/Fm, ■qpⅡ,qp were decreased at different level, qN and KD were raised, these demonstrated that enhanced UV -B radiation led to PS Ⅱ inactivaton, the primary photochemical efficiency, the number of PS Ⅱ opening centre, and noncyclic electron transport of PSⅡ were reduced. Partial excitation energy might dissipate the useful nonphotochemical fluorecence quenching. Enhanced UV -B radiation led to a re- markble increase of MDA. The activities of SOD, APX were promoted at initial stage of treatment, then dropped. The results suggested that enhanced UV-B radiation induced membrane lipid peroxida- tion, attacked photosytnem center and led to PS Ⅱ inactivation, thus reduced plant photosynthesis and metabolism strength, finally led to the inhibition on the growth of pomelo seedlings.
出处
《生态科学》
CSCD
2001年第3期31-38,共8页
Ecological Science
基金
中美日国际合作基金资助项目
广东省科技创新百项工程资助项目(99B05902x)
关键词
柚树苗
UV-B
生长
光合作用
抗氧化酶
pomelo seedlings
UV -B
growth
photosynthesis
antioxidative enzymes
