Different leaf surface characteristics of three grape cultivars affect leaf optical properties as measured with fibre optics: possible implication in stress tolerance

G. Karabourniotis, J. Bornman, V. Liakoura
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引用次数: 72

Abstract

Young leaves of three grape cultivars having different surface characteristics (cv. Athiri, pubescent; cv. Soultanina, glabrous green; and cv. Fraoula, glabrous red-brown) only during the early stages of their development, were used to investigate the potential, differential effect of a trichome layer or a pigmented epidermis on the light microenvironment within the mesophyll. The penetration of forward propagated 310, 360 and 430 nm radiation into the leaf tissues was monitored using a quartz fibre-optic microprobe. The mesophyll of the young leaves of Athiri was much better protected from ultraviolet-A, ultraviolet-B and high visible radiation compared to the other two cultivars. Abaxial, as well as adaxial trichome layers attenuated almost all incident radiation at 310 nm and 360 nm and a considerable part of the blue light (430 nm). No significant differences in light attenuation from epidermal and mesophyll layers between the other two cultivars were observed. The adaxial epidermis of young and dehaired leaves of cv. Athiri was largely ineffective in absorbing the incident ultraviolet- B radiation. In addition, the dehaired lamina of such leaves exhibited 80% lower relative concentration of ultraviolet-absorbing compounds per leaf surface area, compared to leaves of similar ontogenetic stage in the cv. Soultanina. It is proposed that the occurrence of a dense trichome layer in young leaves, besides other proposed functions, may play a protective role against not only ultraviolet radiation damage, but also against high insolation. This protection could be advantageous under stress conditions during leaf development.
不同的葡萄品种叶片表面特征影响叶片的光学特性,这可能与抗逆性有关
三个葡萄品种的嫩叶具有不同的表面特征(cv。Athiri,青春期的;简历。伞叶,无毛的绿色;和简历。研究了毛状体层和色素表皮对叶肉内光微环境的潜在差异影响。利用石英光纤微探针监测正向传播的310nm、360 nm和430nm辐射对叶片组织的穿透情况。与其他两个品种相比,艾提利幼叶叶肉对紫外线a、紫外线b和高可见辐射的保护效果更好。背面和正面的毛状体层衰减了几乎所有310 nm和360 nm的入射辐射以及相当一部分蓝光(430 nm)。其他两个品种的表皮和叶肉层的光衰减没有显著差异。小叶的幼叶和脱毛叶的正面表皮。Athiri在吸收入射的紫外- B辐射方面基本上是无效的。此外,与同类个体发生阶段的叶片相比,脱毛叶片的每叶表面积吸收紫外线化合物的相对浓度降低了80%。Soultanina。作者认为,除了其他功能外,幼叶中浓密毛层的存在可能不仅对紫外线的伤害有保护作用,而且对高日晒也有保护作用。这种保护在叶片发育过程中的胁迫条件下是有利的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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