Response to stem bending in forest shrubs: stem or shoot reorientation and shoot release.

Canadian journal of botany. Journal canadien de botanique Pub Date : 1997-10-01 DOI:10.1139/B97-876

B. Wilson

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引用次数: 10

Abstract

Shrubs in the forest understory may be bent by their own weight or by overstory debris. To maintain height growth they must respond to bending by vertical growth of new shoots, reorientation of older axes, or by releasing preventitious buds to form epicormic shoots. I tested for these responses in Ilex verticillata L., Cornus amomum Mill., Gaylussacia baccata (Wang.) K. Koch, Viburnum cassinoides L., Hamamelis virginiana L., and Kalmia latifolia L. For each species, I removed potentially supporting vegetation adjacent to 20 stems, left 10 stems untreated to test for bending by self weight, and bent the remaining 10 stems to 45 degrees to simulate effects of fallen debris. Stem angles and curvatures were measured from before leaf out until just before leaf fall to detect either sagging from self weight or upward bending from tension wood action. Control stems initially leaned out of vertical and five of six species sagged further into a cantilever form. Several control stems failed and bent to the ground. Stems of H. virginiana, I. verticillata, and C. amomum formed tension wood, but only the first two species bent upward. Viburnum cassinoides, G. baccata, and K. latifolia formed no tension wood and sagged further down after being bent. Epicormic shoots formed with varying frequencies in all species except K. latifolia. Epicormic shoots were the major response in C. amomum, V. cassinoides, and G. baccata. New terminal shoots on bent stems recovered toward vertical in I. verticillata and K. latifolia. Negative gravitropic response of shoots was the only recovery mechanism for K. latifolia.

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森林灌木对茎弯的响应:茎或芽的重新定向和芽的释放。

林下灌木可因自身重量或林下碎屑而弯曲。为了保持高度的增长，它们必须通过垂直生长新芽，重新调整旧轴的方向，或释放预防性芽来形成外生芽来应对弯曲。本文对冬青、山茱萸进行了上述反应试验。， Gaylussacia bacaccata(王)K. Koch, Viburnum cassinoides L.， Hamamelis virginia L.和Kalmia latifolia L.对于每个物种，我移除了20个茎旁潜在的支持植被，留下10个茎未经处理以测试自重弯曲，并将剩余的10个茎弯曲45度以模拟掉落的碎片的影响。茎的角度和曲率被测量，从叶子出来之前，直到叶子落下之前，以检测无论是下垂自重或向上弯曲，从张力木的作用。对照茎最初倾斜出垂直，六个物种中的五个进一步下垂成悬臂形式。几根控制杆失灵，弯到了地上。维吉尼亚木、黄花木和砂木的茎形成张力木，但只有前两种的茎向上弯曲。木薯荚、黑果荚和黑果荚不形成张力木材，弯曲后进一步下垂。外表皮芽的形成频率各不相同，但阔叶栎除外。外生芽是砂木、木薯和黑果的主要反应。弯茎上的新顶芽向垂直方向恢复。枝条负向地性响应是唯一的恢复机制。

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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Canadian journal of botany. Journal canadien de botanique

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