Exploring motion using geometric morphometrics in microscopic aquatic invertebrates: 'modes' and movement patterns during feeding in a bdelloid rotifer model species.

IF 3.4 1区 生物学 Q2 ECOLOGY Movement Ecology Pub Date : 2024-07-13 DOI:10.1186/s40462-024-00491-9
Andrea Cardini, Giulio Melone, Paul O'Higgins, Diego Fontaneto
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Abstract

Background: Movement is a defining aspect of animals, but it is rarely studied using quantitative methods in microscopic invertebrates. Bdelloid rotifers are a cosmopolitan class of aquatic invertebrates of great scientific interest because of their ability to survive in very harsh environment and also because they represent a rare example of an ancient lineage that only includes asexually reproducing species. In this class, Adineta ricciae has become a model species as it is unusually easy to culture. Yet, relatively little is known of its ethology and almost nothing on how it behaves during feeding.

Methods: To explore feeding behaviour in A. ricciae, as well as to provide an example of application of computational ethology in a microscopic invertebrate, we apply Procrustes motion analysis in combination with ordination and clustering methods to a laboratory bred sample of individuals recorded during feeding.

Results: We demonstrate that movement during feeding can be accurately described in a simple two-dimensional shape space with three main 'modes' of motion. Foot telescoping, with the body kept straight, is the most frequent 'mode', but it is accompanied by periodic rotations of the foot together with bending while the foot is mostly retracted.

Conclusions: Procrustes motion analysis is a relatively simple but effective tool for describing motion during feeding in A. ricciae. The application of this method generates quantitative data that could be analysed in relation to genetic and ecological differences in a variety of experimental settings. The study provides an example that is easy to replicate in other invertebrates, including other microscopic animals whose behavioural ecology is often poorly known.

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利用几何形态计量学探索微型水生无脊椎动物的运动:双尾轮虫模型物种摄食过程中的 "模式 "和运动模式。
背景:运动是动物的一个决定性方面,但在微观无脊椎动物中却很少使用定量方法对其进行研究。双翅目轮虫是一类世界性的水生无脊椎动物,由于它们能够在非常恶劣的环境中生存,同时也因为它们代表了一个罕见的古老品系,其中只包括无性繁殖的物种,因而具有极大的科学价值。在这一类中,Adineta ricciae 已成为一个模式物种,因为它非常容易培养。然而,人们对它的生态学知之甚少,对它在摄食时的行为也几乎一无所知:方法:为了探索蓖麻蜥的进食行为,并为计算伦理学在微观无脊椎动物中的应用提供一个实例,我们将普罗克里斯特运动分析与排序和聚类方法相结合,应用于实验室培育的记录进食过程的个体样本:结果:我们证明,进食时的运动可以在一个简单的二维形状空间中用三种主要运动 "模式 "准确描述。在身体保持平直的情况下,脚伸缩是最常见的 "模式",但在脚伸缩的同时,还伴随着脚的周期性旋转和弯曲:结论:普罗克鲁斯特运动分析是描述蓖麻蛙进食时运动的一种相对简单但有效的工具。应用该方法可生成定量数据,并可在各种实验环境中对遗传和生态差异进行分析。这项研究提供了一个易于在其他无脊椎动物(包括行为生态学通常不为人知的其他微小动物)中复制的例子。
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来源期刊
Movement Ecology
Movement Ecology Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
6.60
自引率
4.90%
发文量
47
审稿时长
23 weeks
期刊介绍: Movement Ecology is an open-access interdisciplinary journal publishing novel insights from empirical and theoretical approaches into the ecology of movement of the whole organism - either animals, plants or microorganisms - as the central theme. We welcome manuscripts on any taxa and any movement phenomena (e.g. foraging, dispersal and seasonal migration) addressing important research questions on the patterns, mechanisms, causes and consequences of organismal movement. Manuscripts will be rigorously peer-reviewed to ensure novelty and high quality.
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