Patterns and processes in amphibious fish: biomechanics and neural control of fish terrestrial locomotion.

K. Lutek, C. Donatelli, E. Standen
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引用次数: 1

Abstract

Amphibiousness in fishes spans the actinopterygian tree from the earliest to the most recently derived species. The land environment requires locomotor force production different from that in water, and a diversity of locomotor modes have evolved across the actinopterygian tree. To compare locomotor mode between species, we mapped biomechanical traits on an established amphibious fish phylogeny. Although the diversity of fish that can move over land is large, we noted several patterns, including the rarity of morphological and locomotor specialization, correlations between body shape and locomotor mode, and an overall tendency for amphibious fish to be small. We suggest two idealized empirical metrics to consider when gauging terrestrial 'success' in fishes and discuss patterns of terrestriality in fishes considering biomechanical scaling, physical consequences of shape, and tissue plasticity. Finally, we suggest four ways in which neural control could change in response to a novel environment, highlighting the importance and challenges of deciphering when these control mechanisms are used. We aim to provide an overview of the diversity of successful amphibious locomotion strategies and suggest several frameworks that can guide the study of amphibious fish and their locomotion.
两栖鱼类的模式和过程:鱼类陆地运动的生物力学和神经控制。
鱼类的两栖性跨越了从最早的鱼类到最近衍生的鱼类。陆地环境对运动力产生的要求不同于水中,在整个放行翼动物树中进化出了多种运动模式。为了比较不同物种之间的运动模式,我们绘制了一种两栖鱼类系统发育的生物力学特征。尽管可以在陆地上移动的鱼类的多样性很大,但我们注意到一些模式,包括形态和运动专业化的罕见性,体型和运动模式之间的相关性,以及两栖鱼类体型较小的总体趋势。我们提出了两个理想的经验指标来衡量鱼类在陆地上的“成功”,并讨论了鱼类在陆地上的模式,考虑了生物力学尺度、形状的物理后果和组织可塑性。最后,我们提出了神经控制在响应新环境时可能发生变化的四种方式,强调了在使用这些控制机制时解码的重要性和挑战。我们的目标是概述成功的两栖运动策略的多样性,并提出几个框架,可以指导两栖鱼类及其运动的研究。
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