落叶、半落叶和常绿塞拉多树种的枝叶关系

J. P. Souza, C. Prado, A. Albino, M. A. Damascos
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引用次数: 17

摘要

对自然条件下生长的15种具有不同叶物候特征的塞拉多树种进行了形态和叶片生物量分配的研究。落叶树种的质量基叶/梢比、单株叶面积、单枝叶面积、叶片展示指数和每枝长叶数均高于常绿树种。不同叶物候群间枝叶关系的差异可以用落叶种的斜向芽和半落叶种和常绿种的直立芽来解释。在落叶乔木中,斜向性枝条允许相似的光照和高生物量分配,有利于无叶片自遮阳的叶片。所有落叶树种、3种半落叶树种和2种常绿树种的叶片显示指数与枝长呈指数关系,表明了短枝和长枝的结构分化。因此,特别是在落叶中,短枝的单位长度叶面积高于长枝。落叶植物短枝和长枝的区别取决于茎长,因为茎上的叶数在芽中是预先决定的。相比之下,半落叶和常绿树种的叶片新生使每枝长的枝叶关系更加稳定,因为叶片是根据一年四季的枝生长而产生的。综上所述,在不同叶物候类群中,塞拉多树种的叶片持续性、梢倾、产叶类型以及自养和异养营养冠层部分之间的资源分配是相互依赖的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Shoot-foliage relationships in deciduous, semideciduous, and evergreen cerrado tree species
The morphology and the biomass allocation in shoots and leaves were investigated in 15 cerrado tree species with distinct leaf phenology growing under natural conditions. Higher values of leaf/shoot ratio on mass base, individual leaf area, leaf area per shoot, leaf display index, and leaf number per shoot length were found in deciduous than in evergreen species. The differences about shoot-foliage relationship across leaf phenological groups could be explained by plagiotropic shoots on deciduous and by erect shoots in semideciduous and evergreen species. Plagiotropic shoots allow similar irradiance along shoots and high biomass allocation in favor of leaves without foliage self-shading in deciduous tree species. The structural differentiation between short and long shoots was indicated by an exponential relationship between leaf display index and shoot length in all deciduous, in three semideciduous, and in two evergreen species. Therefore, especially in deciduous, the short shoots had higher leaf area per unit of length than the long shoots. The differentiation between short and long shoots depends on the shoot length in deciduous because of the leaf number on shoot is predetermined in buds. Contrastingly, the leaf neo-formation in semideciduous and in evergreen tree species keeps the shoot-leaf relationship per shoot length more constant, because of the foliage being produced according to the shoot growth during the year. In conclusion, the foliage persistence, the shoot inclination, the type of leaf production and the resources allocation between autotrophic and heterotrophic vegetative canopy parts are interdependent in cerrado tree species across different leaf phenological groups.
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