Whirligig beetles as corralled active Brownian particles.

TitleWhirligig beetles as corralled active Brownian particles.
Publication TypeJournal Article
Year of Publication2021
AuthorsDevereux HL, Twomey CR, Turner MS, Thutupalli S
JournalJ R Soc Interface
Volume18
Issue177
Pagination20210114
Date Published2021 Apr
ISSN1742-5662
KeywordsAnimals, Coleoptera, Swimming
Abstract

We study the collective dynamics of groups of whirligig beetles swimming freely on the surface of water. We extract individual trajectories for each beetle, including positions and orientations, and use this to discover (i) a density-dependent speed scaling like ∼ with ≈ 0.4 over two orders of magnitude in density (ii) an inertial delay for velocity alignment of approximately 13 ms and (iii) coexisting high and low-density phases, consistent with motility-induced phase separation (MIPS). We modify a standard active Brownian particle (ABP) model to a corralled ABP (CABP) model that functions in open space by incorporating a density-dependent reorientation of the beetles, towards the cluster. We use our new model to test our hypothesis that an motility-induced phase separation (MIPS) (or a MIPS like effect) can explain the co-occurrence of high- and low-density phases we see in our data. The fitted model then successfully recovers a MIPS-like condensed phase for = 200 and the absence of such a phase for smaller group sizes = 50, 100.

DOI10.1098/rsif.2021.0114
Alternate JournalJ R Soc Interface
PubMed ID33849331
PubMed Central IDPMC8086927
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