Lange O L, Medina E
Lehrstuhl für Botanik II der Universität Würzburg, Mittlerer Dallenbergweg 64, D-8700, Würzburg, Federal Republic of Germany.
Centro de Ecologia, I.V.I.C., Caracas, Venezuela.
Oecologia. 1979 Jan;40(3):357-363. doi: 10.1007/BF00345331.
Under controlled conditions, CO exchange of Tillandsia recurvata showed all characteristics of CAM. During the phase of nocturnal CO fixation stomata of the plant responded sensitively to changes in ambient air humidity. Dry air resulted in an increase, moist air in a decrease of diffusion resistance. The evaporative demand of the air affected the level of stomatal resistance during the entire night period. Due to stomatal closure, the total nocturnal water loss of T. recurvata was less at low than at high humidity. It is concluded that stomata respond directly to humidity and not via bulk tissue water conditions of the leaves. Such control of transpiration may optimize water use efficiency for this almost rootless, extreme epiphyte.
在可控条件下,弯叶铁兰的二氧化碳交换呈现出景天酸代谢(CAM)的所有特征。在夜间二氧化碳固定阶段,该植物的气孔对环境空气湿度的变化反应敏感。干燥空气会导致扩散阻力增加,潮湿空气则会使其降低。空气的蒸发需求在整个夜间都会影响气孔阻力水平。由于气孔关闭,低湿度条件下弯叶铁兰的夜间总失水量低于高湿度条件。可以得出结论,气孔直接对湿度做出反应,而非通过叶片的整体组织水分状况。这种对蒸腾作用的控制可能会优化这种几乎无根的极端附生植物的水分利用效率。