Unidirectional versus bidirectional brushing: Simulating wind influence on Arabidopsis thaliana.

Oleksandr Zhdanov, Michael R Blatt, Hossein Zare-Behtash, Angela Busse
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Abstract

Plants acclimate to various types of mechanical stresses through thigmomorphogenesis and alterations in their mechanical properties. Although resemblance between wind- and touch-induced responses provides the foundation for studies where wind influence was mimicked by mechanical perturbations, factorial experiments revealed that it is not always straightforward to extrapolate results induced by one type of perturbation to the other. To investigate whether wind-induced changes in morphological and biomechanical traits can be reproduced, we subjected Arabidopsis thaliana to two vectorial brushing treatments. Both treatments significantly affected the length, mechanical properties and anatomical tissue composition of the primary inflorescence stem. While some of the morphological changes were found to be in line with those induced by wind, changes in the mechanical properties exhibited opposite trends irrespective of the brushing direction. Overall, a careful design of the brushing treatment gives the possibility to obtain a closer match to wind-induced changes, including a positive tropic response.

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单向与双向刷:模拟风对拟南芥的影响。
植物通过同种形态的发生和机械特性的改变来适应不同类型的机械胁迫。虽然风和触摸引起的反应之间的相似性为机械扰动模仿风的影响的研究提供了基础,但析因实验表明,将一种扰动引起的结果外推到另一种扰动并不总是直截了当的。为了研究风诱导的形态和生物力学性状变化是否可以再现,我们对拟南芥进行了两种媒介刷刷处理。两种处理均显著影响了初生花序茎的长度、力学特性和解剖组织组成。虽然发现一些形态变化与风引起的变化一致,但无论刷毛方向如何,机械性能的变化都表现出相反的趋势。总的来说,精心设计的刷刷处理可以更接近风引起的变化,包括正热带响应。
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