Subsidiary adaptations: climbing techniques in vespertilionid bats

Q3 Agricultural and Biological Sciences

Biological Communications Pub Date : 2019-05-24 DOI:10.21638/SPBU03.2019.103

O. Emelianova, A. Panyutina, K. Morozova, Ya. Davidov, M. Kovalenko, D. Kalacheva, Anastasia Shvyrkova

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Abstract

The quadrupedal locomotion of bats still remains almost unexplored. Meanwhile, in the life of many species, this type of movement plays an important role. This paper presents the study of characteristics of quadrupedal locomotion on vertical surfaces in bats. We provide the results of the analysis of climbing of five vespertilionid species. The study is based on high-speed video recording of locomotion in two planes in an experimental enclosure on various substrates (the bark of five tree species and the inner surface of the manufactured nest box for bats). For comparison, we used data on horizontal locomotion obtained using the same experimental facilities, as well as all available literature data to date. The time, metric and velocity characteristics of the movement of different species representatives are determined. We show how these characteristics are interrelated and how they differ in walking or climbing. The study comparing walking vs. climbing was performed for the second time ever. It is shown that while climbing, bats retain the same limb sequence, but the gait is not a slow trot-like walk but a very slow walk. There are considerably fewer deviations from the usual symmetrical sequence gait (wherein a forelimb movement is followed by that of the contralateral hind limb) when climbing than when walking, and they are all associated with the search for support. Our results show that not all tree-dwelling species of vesper bats can move up the trees which they use to roost. The surface of the inner walls of artificial shelters for bats may be a significant factor in their occupancy. While designing such shelters, it is advisable to consider the results of our experiments or conduct tests on the behavior of particular species on specific artificial surfaces.

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辅助适应:蝙蝠的攀爬技术

蝙蝠的四足运动几乎仍未被探索。同时，在许多物种的生活中，这种类型的运动起着重要的作用。本文研究了蝙蝠在垂直表面上的四足运动特性。我们提供了五种蕨类植物攀爬的分析结果。这项研究是基于在不同基质(五种树种的树皮和为蝙蝠制造的巢箱的内表面)的实验围栏中两个平面运动的高速视频记录。为了进行比较，我们使用了使用相同实验设备获得的水平运动数据，以及迄今为止所有可用的文献数据。确定了不同物种代表的运动时间、度量和速度特征。我们将展示这些特征是如何相互关联的，以及它们在行走或攀登时的不同之处。这项比较步行和攀岩的研究是有史以来第二次进行。研究表明，在攀爬时，蝙蝠保持了相同的肢体序列，但步态不是像小跑一样缓慢的行走，而是非常缓慢的行走。与行走相比，攀爬时与通常的对称顺序步态(前肢运动之后是对侧后肢运动)的偏差要少得多，而且它们都与寻找支撑有关。我们的研究结果表明，并非所有的树栖蝙蝠都能爬上它们栖息的树木。蝙蝠人工庇护所内壁的表面可能是它们入住的一个重要因素。在设计这样的庇护所时，建议考虑我们的实验结果，或对特定物种在特定人造表面上的行为进行测试。

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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来源期刊

Biological Communications Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

1.70

自引率

0.00%

发文量