Department of Biological Sciences, Macquarie University, NSW 2109, Australia.
New Phytol. 2010 Apr;186(2):429-38. doi: 10.1111/j.1469-8137.2010.03202.x. Epub 2010 Feb 23.
*When grown in a common light environment, the leaves of shade-tolerant evergreen trees have a larger leaf mass per unit area (LMA) than their light-demanding counterparts, associated with differences in lifespan. Yet plastic responses of LMA run counter to this pattern: shade leaves have smaller LMA than sun leaves, despite often living longer. *We measured LMA and cell wall content, and conducted punch and shear tests, on sun and shade leaves of 13 rainforest evergreens of differing shade tolerance, in order to understand adaptation vs plastic responses of leaf structure and biomechanics to shade. *Species shade tolerance and leaf mechanical properties correlated better with cell wall mass per unit area than with LMA. Growth light environment had less effect on leaf mechanics than on LMA: shade leaves had, on average, 40% lower LMA than sun leaves, but differences in work-to-shear, and especially force-to-punch, were smaller. This was associated with a slightly larger cell wall fraction in shade leaves. *The persistence of shade leaves might reflect unattractiveness to herbivores because they yield smaller benefits (cell contents per area) per unit fracture force than sun leaves. In forest trees, cell wall fraction and force-to-punch are more robust correlates of species light requirements than LMA.
在普通光照环境中生长时,耐荫常绿树木的叶片单位面积叶质量(LMA)大于其对光照要求较高的对应物,这与寿命的差异有关。然而,LMA 的塑性响应与这一模式相悖:尽管耐荫叶的寿命通常更长,但它们的 LMA 却比阳生叶小。我们测量了 13 种不同耐荫性的热带雨林常绿植物的阳生叶和耐荫叶的 LMA 和细胞壁含量,并进行了冲压和剪切测试,以了解叶片结构和生物力学对遮荫的适应与塑性响应。物种耐荫性和叶片机械性能与细胞壁质量与 LMA 相比,与单位面积细胞壁质量的相关性更好。与 LMA 相比,生长光照环境对叶片力学的影响较小:耐荫叶的 LMA 平均比阳生叶低 40%,但在剪切功和特别是冲压力方面的差异较小。这与耐荫叶的细胞壁比例略大有关。耐荫叶的持久性可能反映了它们对食草动物的吸引力较低,因为它们每单位断裂力提供的细胞内容(每单位面积)收益较小,而不是阳生叶。在森林树木中,细胞壁比例和冲压力与物种光需求比 LMA 更具稳健性的相关性。
