The effect of changing topography on the coordinated marching of locust nymphs

Guy Amichay, Gil Ariel, Amir Ayali

Research output: Contribution to journalArticlepeer-review

11 Scopus citations

Abstract

Collective motion has traditionally been studied in the lab in homogeneous, obstaclefree environments, with little work having been conducted with changing landscapes or topography. Here, the impact of spatial heterogeneity on the collective motion exhibited by marching desert locust nymphs was studied under controlled lab conditions. Our experimental circular arenas, incorporating a funnel-like narrowing followed by rewidening, did not constitute a major barrier to the locusts but, rather, mimicked a changing topography in the natural environment. We examined its effects on macroscopic features of the locust collective behavior, as well as the any changes in their marching kinematics. A major finding was that of the limited extent to which the changing topography affected system-level features of the marching locust group, such as the order parameter and the fraction of walking individuals, despite increased crowding at the funnel. Overall, marching kinematics was also very little affected, suggesting that locust marching bands adjust to the environment, with little effect on the overall dynamics of the group. These findings are in contrast to recent theoretical results predicting that environmental heterogeneities qualitatively alter the dynamics of collectively moving particles; and highlight the crucial role of rapid individual plasticity and adaptability in the dynamics of flocks and swarms. Our study has revealed other important features of the marching behavior of the desert locust in addition to its robustness: the locusts demonstrated both, clear thigmotaxis and a tendency to spreadout and fill the available space.

Original languageEnglish
Article numbere2742
JournalPeerJ
Volume2016
Issue number12
DOIs
StatePublished - 2016

Bibliographical note

Publisher Copyright:
© 2016 Amichay et al.

Keywords

  • Collective motion
  • Environmental effects
  • Locust marching bands
  • Schistocerca gregaria
  • Spatial heterogeneity
  • Swarming
  • Topological changes

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