紫堇属植物的种子弹射机制。

Seed ejection mechanism in an Oxalis species.

机构信息

College of Pipeline and Civil Engineering, China University of Petroleum (East China), Qingdao, 266580, China.

College of Engineering, Lishui University, Lishui, 323000, China.

出版信息

Sci Rep. 2020 Jun 1;10(1):8855. doi: 10.1038/s41598-020-65885-2.

DOI:10.1038/s41598-020-65885-2

PMID:32483323

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7264325/

Abstract

With millions of years' evolution, plants and fungi have developed a variety of ballistic dispersal structures for seeds or spores. One typical example is the catapult of an Oxalis sp., which can realize a consecutive seed ejection by triggering only one seed. If the protrusion on an aril, a specialized outgrowth covering a seed, is disturbed, cracks would occur and cause the opening of the aril. Subsequently, the whole aril snaps and transforms its stored strain energy to eject the inside seed with an optimal launching angle. Once the first seed is triggered, its curly aril will contact the next seed's protrusion and induce its firing. This chain effect will further trigger the remaining seeds in turns, within 0.1 s. Inspired by this phenomenon, we invented a bionic ejection device to launch projectiles with high efficiency. This exploration is promising for a number of applications, such as drug delivery and oil displacement.

摘要

经过数百万年的进化，植物和真菌已经发展出多种用于种子或孢子的弹射式扩散结构。一个典型的例子是酢浆草属植物的弹射器，它只需触发一个种子就能实现连续弹射。如果种皮上的突起（一种覆盖种子的特殊突起）受到干扰，就会出现裂缝并导致种皮打开。随后，整个种皮突然弹开，将储存的应变能转化为以最佳发射角度弹出内部种子。一旦第一个种子被触发，它卷曲的种皮就会接触到下一个种子的突起并引发其发射。这种连锁反应会在 0.1 秒内依次进一步触发其余的种子。受此现象启发，我们发明了一种仿生弹射装置，可高效发射弹丸。这种探索在许多应用中很有前景，例如药物输送和驱油。

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紫堇属植物的种子弹射机制。

Seed ejection mechanism in an Oxalis species.

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