Turgor and Cell Wall Yielding in Dicot Leaf Growth in Response to Changes in Relative Humidity

Australian Journal of Plant Physiology Pub Date : 2000-12-15 DOI:10.1071/PP00055

M. Serpe, M. Matthews

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引用次数: 26

Abstract

Epidermal cell turgor (P) and leaf growth in Begonia argenteo-guttata L. were monitored simultaneously following changes in air humidity in order to evaluate P–growth relations. A decrease in air humidity from 70 to 5% caused a decrease in P of 0.05 MPa. This small decrease in P resulted in cessation of growth. Subsequently, growth recovered partially at constant P, indicating an increase in wall yielding to P. Notwithstanding this increase in wall yielding, the steady growth rates showed a marked dependence on P. Decreases in P of 0.05 MPa caused a 30–40% reduction in the steady rate of elongation. These results were reversible. Upon a step increase in air humidity from 5 to 70%, P and growth rate rapidly increased. Subsequently, growth declined without a corresponding decrease in P, although the rate of growth remained higher than at low humidity. The partial self-stabilization of growth following P changes and the positive relationship between steady growth rate and P are consistent with the notion that wall yielding is controlled by interactions between P and metabolism. Results are discussed in relation to biophysical factors that control growth and to present theories that accommodate variable wall yielding.

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相对湿度变化对双叶植物叶片膨胀和细胞壁产生的影响

在不同的空气湿度条件下，同时监测了秋海棠表皮细胞膨胀率(P)与叶片生长的关系。空气湿度从70%降低到5%，P值降低0.05 MPa。P的少量减少导致生长停止。随后，在恒定P下，生长部分恢复，表明壁面屈服于P增加，尽管壁面屈服增加，但稳定生长速率明显依赖于P。0.05 MPa的P降低导致稳定伸长率降低30-40%。这些结果是可逆的。当空气湿度从5%逐步增加到70%时，P和生长速度迅速增加。随后，生长下降，但P值没有相应下降，尽管生长速度仍高于低湿度条件下。磷变化后生长的部分自稳定以及稳定生长速率与磷之间的正相关关系与壁产量受磷与代谢相互作用控制的观点一致。结果讨论了控制生长的生物物理因素，并提出了适应可变壁产率的理论。

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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Australian Journal of Plant Physiology

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