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通过立体 360 度摄像机对萤火虫群中突发闪光同步进行时空重构。

Spatio-temporal reconstruction of emergent flash synchronization in firefly swarms via stereoscopic 360-degree cameras.

机构信息

BioFrontiers Institute, University of Colorado Boulder, Boulder, CO, USA.

Rubika Supinfogame, Valenciennes, France.

出版信息

J R Soc Interface. 2020 Sep;17(170):20200179. doi: 10.1098/rsif.2020.0179. Epub 2020 Sep 23.

DOI:10.1098/rsif.2020.0179
PMID:32961095
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7536049/
Abstract

During mating season, males of synchronous firefly species flash in unison within swarms of thousands of individuals. These strongly correlated collective displays have inspired numerous mathematical models to explain how global synchronous patterns emerge from local interactions. Yet, experimental data to validate these models remain sparse. To address this gap, we develop a method for three-dimensional tracking of firefly flashes, using a stereoscopic set-up of 360-degree cameras. We apply this method to record flashing displays of the North American synchronous species in its natural habitat as well as within controlled environments, and obtain the three-dimensional reconstruction of flash occurrences in the swarm. Our results show that even a small number of interacting males synchronize their flashes; however, periodic flash bursts only occur in groups larger than 15 males. Moreover, flash occurrences are correlated over several metres, indicating long-range interactions. While this suggests emergent collective behaviour and cooperation, we identify distinct individual trajectories that hint at additional competitive mechanisms. These reveal possible behavioural differentiation with early flashers being more mobile and flashing longer than late followers. Our experimental technique is inexpensive and easily implemented. It is extensible to tracking light communication in various firefly species and flight trajectories in other insect swarms.

摘要

在交配季节,同步萤火虫物种的雄性会在成千上万只个体的群体中同时闪烁。这些强烈相关的集体展示激发了许多数学模型来解释如何从局部相互作用中产生全球同步模式。然而,验证这些模型的实验数据仍然很少。为了解决这个差距,我们开发了一种使用 360 度摄像头的立体设置来进行萤火虫闪光的三维跟踪的方法。我们将这种方法应用于在其自然栖息地以及受控环境中记录北美同步物种的闪光显示,并获得了群体中闪光发生的三维重建。我们的结果表明,即使是少量相互作用的雄性也能同步它们的闪光;然而,周期性的闪光爆发仅在大于 15 只雄性的群体中发生。此外,闪光的发生在几米范围内是相关的,这表明存在远程相互作用。虽然这表明出现了集体行为和合作,但我们发现了明显的个体轨迹,暗示存在额外的竞争机制。这表明可能存在行为分化,早期闪光者比后期追随者更具移动性和更长的闪光时间。我们的实验技术成本低廉,易于实施。它可以扩展到跟踪各种萤火虫物种的光通信和其他昆虫群体的飞行轨迹。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/66be/7536049/a6962c38d4f2/rsif20200179-g9.jpg
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