Velocity correlations in jackdaw flocks in different ecological contexts.

IF 2 4区生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY

Physical biology Pub Date : 2022-12-15 DOI:10.1088/1478-3975/aca862

Daniel O'Coin, Guillam E Mclvor, Alex Thornton, Nicholas T Ouellette, Hangjian Ling

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引用次数: 1

Abstract

Velocity correlation is an important feature for animal groups performing collective motions. Previous studies have mostly focused on the velocity correlation in a single ecological context. It is unclear whether correlation characteristics vary in a single species in different contexts. Here, we studied the velocity correlations in jackdaw flocks in two different contexts: transit flocks where birds travel from one location to another, and mobbing flocks where birds respond to an external stimulus. We found that in both contexts, although the interaction rules are different, the velocity correlations remain scale-free, i.e. the correlation length (the distance over which the velocity of two individuals is similar) increases linearly with the group size. Furthermore, we found that the correlation length is independent of the group density for transit flocks, but increases with increasing group density in mobbing flocks. This result confirms a previous observation that birds obey topological interactions in transit flocks, but switch to metric interactions in mobbing flocks. Finally, in both contexts, the impact of group polarization on correlation length is not significant. Our results suggest that wild animals are always able to respond coherently to perturbations regardless of context.

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不同生态环境下寒鸦群速度相关性研究

速度相关性是动物群体进行集体运动的一个重要特征。以往的研究主要集中在单一生态环境下的速度相关性。目前尚不清楚，在不同环境下，同一物种的相关特征是否不同。在这里，我们研究了两种不同情况下寒鸦群的速度相关性:从一个地方到另一个地方的中转群，以及对外部刺激做出反应的蜂群。我们发现，在这两种情况下，尽管相互作用规则不同，但速度相关性仍然是无标度的，即相关长度(两个个体速度相似的距离)随着群体规模的增加而线性增加。此外，我们还发现，过境群的相关长度与群密度无关，但随群密度的增加而增加。这一结果证实了先前的观察，即鸟类在过境群中服从拓扑相互作用，但在候鸟群中转向公制相互作用。最后，在这两种情况下，群体极化对相关长度的影响都不显著。我们的研究结果表明，无论环境如何，野生动物总是能够对扰动做出连贯的反应。

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

Physical biology 生物-生物物理

CiteScore

4.20

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： Physical Biology publishes articles in the broad interdisciplinary field bridging biology with the physical sciences and engineering. This journal focuses on research in which quantitative approaches – experimental, theoretical and modeling – lead to new insights into biological systems at all scales of space and time, and all levels of organizational complexity. Physical Biology accepts contributions from a wide range of biological sub-fields, including topics such as: molecular biophysics, including single molecule studies, protein-protein and protein-DNA interactions subcellular structures, organelle dynamics, membranes, protein assemblies, chromosome structure intracellular processes, e.g. cytoskeleton dynamics, cellular transport, cell division systems biology, e.g. signaling, gene regulation and metabolic networks cells and their microenvironment, e.g. cell mechanics and motility, chemotaxis, extracellular matrix, biofilms cell-material interactions, e.g. biointerfaces, electrical stimulation and sensing, endocytosis cell-cell interactions, cell aggregates, organoids, tissues and organs developmental dynamics, including pattern formation and morphogenesis physical and evolutionary aspects of disease, e.g. cancer progression, amyloid formation neuronal systems, including information processing by networks, memory and learning population dynamics, ecology, and evolution collective action and emergence of collective phenomena.