Ronzan Marilena, Mariani Stefano, Cecchini Luca, Filippeschi Carlo, Dante Silvia, Pugno Nicola Maria, Mazzolai Barbara
Bioinspired Soft Robotics Laboratory, Istituto Italiano di Tecnologia, Via Morego 30, Genova, 16163, Italy.
Laboratory for Bioinspired, Bionic, Meta Materials and Mechanics, Department of Civil, Environmental and Mechanical Engineering, University of Trento, Via Mesiano 77, Trento, 38123, Italy.
Sci Rep. 2025 Jul 1;15(1):21289. doi: 10.1038/s41598-025-09186-6.
Hygroscopic deformations in plants are passive movements within specialized structures triggered by changes in environmental humidity. In the Geraniaceae, the sterile extension of the mericarp, called awn, facilitates seed dispersal by actuating hygroscopic coiling. Notably, the morphological characteristics and regional distribution of awns vary significantly among the family species, suggesting different mechanisms at the base of dispersion. Despite these variations, no prior investigation has solely focused on examining the combination of the structural and mechanical properties of the awn. Thus, this study fills the gap by conducting an in-depth comparative analysis of the awns from two Geraniaceae species, Pelargonium appendiculatum (L.f.) Willd. and Erodium gruinum (L.) L'Her., which exhibit similar coiling behavior but possess distinct structural features. Through an interdisciplinary approach, we have identified key internal structural characteristics that profoundly impact the awn's mechanical properties and hygroscopic response, directly influencing its movement. Our comprehensive findings highlight distinct dispersion mechanisms tailored to each species, providing new insights into the functional role of awn structures. This study not only advances our understanding of plant biomechanics but also highlights the intricate relationship between structure and function.
植物中的吸湿变形是由环境湿度变化引发的特殊结构内的被动运动。在牻牛儿苗科中,分果爿的不育延伸部分,即芒,通过引发吸湿卷曲促进种子传播。值得注意的是,芒的形态特征和区域分布在该科不同物种间差异显著,这表明在传播基础上存在不同机制。尽管存在这些差异,但此前没有研究专门聚焦于考察芒的结构和力学性能的组合。因此,本研究通过对牻牛儿苗科的两种植物天竺葵(Pelargonium appendiculatum (L.f.) Willd.)和硬叶牻牛儿苗(Erodium gruinum (L.) L'Her.)的芒进行深入比较分析填补了这一空白,这两种植物表现出相似的卷曲行为,但具有不同的结构特征。通过跨学科方法,我们确定了关键的内部结构特征,这些特征深刻影响芒的力学性能和吸湿响应,直接影响其运动。我们的综合研究结果突出了针对每个物种的独特传播机制,为芒结构的功能作用提供了新见解。本研究不仅推进了我们对植物生物力学的理解,还突出了结构与功能之间的复杂关系。
