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红雉凤仙花形态与光合特性对光强的响应及其耐阴性评价

Responses of the Morphological and Photosynthetic Characteristics of Impatiens oxyanthera to Light Intensity and Evaluation of its Shade-tolerance

  • 摘要: 评价野生花卉植物的耐阴性并揭示其耐阴机制,有助于该类植物有效的引种栽培和合理的开发利用。采用遮阳网对峨眉山野生观赏花卉红雉凤仙花(Impatiens oxyanthera)进行遮荫处理,相对光强为(26.242±1.029)%,以全光照作为对照,遮荫约4个月后,测定植株形态和气体交换特征,并计算光响应参数。结果表明:遮荫促进红雉凤仙花生长,所测定的形态指标(株高、基径、分枝数、冠幅、单叶面积、叶长和叶宽)均显著增加。与全光照条件下相比,遮荫使红雉凤仙花的蒸腾速率(Tr)和气孔导度(Gs)显著下降,进而导致净光合速率(Pn)显著降低,但对胞间CO2浓度(Ci)、水分利用效率(WUE)和气孔限制值(Ls)影响不显著。同时,遮荫使红雉凤仙花的表观量子效率(AQY)显著增大69.841%。主成分分析以及隶属函数法综合评价表明,该植物耐阴综合平均值为0.407。红雉凤仙花通过增加单叶面积,以弥补遮荫引起的净光合速率降低,增大表观量子效率,提高对弱光的利用能力,以促进其生长,较强的耐阴性使得该植物在园林植物造景和建筑物遮荫区绿化中具有重要的应用价值。

     

    Abstract: Evaluating shade-tolerance of wild flower plants contributed to effective introduction and cultivation as well as reasonable utilization of plant resources.In this study,the wild ornamental plant (Impatiens oxyanthera) was grown in two different light environments (unshading and shading at (26.242±1.029)% with black shading net) in E'mei Mountain for about 4 months.The morphological,and gaseous exchange characteristics were measured and photosynthetic-light curve parameters were calculated.The results showed that shading significantly promoted the growth of I.oxyanthera,which increased plant height,base diameter,branch number,crown width,single leaf area,leaf length and width.Shading significantly reduced net photosynthetic rate due to the decrease of the transpiration rates and stomatal conductance,but had no obvious effect on the other gas exchange traits,such as intercellular CO2 concentration,water use efficiency and stomatal limit.In addition,shading significantly increased apparent quantum yield by 69.841%.The comprehensive evaluation of shade-tolerance of I.oxyanthera showed that average comprehensive evaluation value was 0.407 by principal component analysis and subordinate function method.This suggested that I.oxyanthera had a good resistance to shade,and could adapt to low light environment through improving single leaf area to make up for the reduction of net photosynthetic rate per unit area and increasing apparent quantum yield.Higher shade-tolerance would have an important application value for garden-plant scenery and greening at the shading areas of buildings.

     

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