陆生等足类动物（甲壳纲：等足目：潮虫亚目）中具有纹理滑动表面的铰链接合结构。

Structure of a hinge joint with textured sliding surfaces in terrestrial isopods (Crustacea: Isopoda: Oniscidea).

作者信息

Vittori Miloš

机构信息

Department of Biology, Biotechnical Faculty, University of Ljubljana, Večna pot 111, 1000, Ljubljana, Slovenia.

出版信息

Zoological Lett. 2021 May 11;7(1):7. doi: 10.1186/s40851-021-00177-9.

DOI:10.1186/s40851-021-00177-9

PMID:33975647

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8114531/

Abstract

BACKGROUND

The study of joints in terrestrial arthropods can provide insights into the evolutionary optimization of contacting surfaces that slide without lubrication. This work reports on the structure of the joint between the propodus and the dactylus in terrestrial isopods, the most successful group of crustaceans on land, focusing on the woodlouse Porcellio scaber.

METHODS

The joints were studied using fluorescence microscopy, 3D reconstruction, scanning electron microscopy and transmission electron microscopy. The obtained results were functionally interpreted using high-speed video recordings by analyzing the use of the joint during locomotion.

RESULTS

In the joint, which allows the dactylus to move in a single plain, a semicircular process on the propodus fits into a groove on the dactylus and guides its movement. The sliding surfaces of the propodal process are textured in the form of parallel epicuticular ridges a few hundred nanometers thick. This texturing is selective: while the less heavily loaded surfaces are textured, the surfaces that support the isopod during standing and walking are smooth. In contrast, the groove on the dactylus is completely smooth. We found a similar surface texture in several other species of terrestrial isopods and one aquatic isopod.

CONCLUSIONS

The selective texturing of the joint may reduce wear by eliminating small particles. This effect of the ridges was confirmed using electron microscopy. The absence of ridges on heavily loaded surfaces may enhance the dissipation of forces in these regions.

摘要

背景

对陆生节肢动物关节的研究有助于深入了解无润滑滑动接触表面的进化优化情况。本研究报告了陆生等足类动物（陆地上最成功的甲壳类动物群体）中腕节与指节之间关节的结构，重点研究对象为鼠妇Porcellio scaber。

方法

采用荧光显微镜、三维重建、扫描电子显微镜和透射电子显微镜对关节进行研究。通过分析关节在运动过程中的使用情况，利用高速视频记录对所得结果进行功能解读。

结果

在该能使指节在单一平面内移动的关节中，腕节上的半圆形突起嵌入指节上的凹槽并引导其运动。腕节突起的滑动表面呈数百纳米厚的平行表皮嵴状纹理。这种纹理具有选择性：负荷较小的表面有纹理，而在等足类动物站立和行走时支撑其身体的表面则是光滑的。相比之下，指节上的凹槽则完全光滑。我们在其他几种陆生等足类动物和一种水生等足类动物中也发现了类似的表面纹理。

结论

关节的选择性纹理化可能通过清除小颗粒来减少磨损。利用电子显微镜证实了嵴的这种作用。负荷较重表面上没有嵴可能会增强这些区域的力消散。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5e12/8114531/cf266b91592b/40851_2021_177_Fig1_HTML.jpg

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陆生等足类动物（甲壳纲：等足目：潮虫亚目）中具有纹理滑动表面的铰链接合结构。

Structure of a hinge joint with textured sliding surfaces in terrestrial isopods (Crustacea: Isopoda: Oniscidea).

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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