The Regulation of Collective Motion in Desert Locusts

Sercan Sayin¹, Einat Couzin-Fuchs¹, Inga Petelski¹, Mohammad Salahshour², Chi-Yu Lee¹, Liang Li², Jakob M. Graving², Oliver Deussen¹, Gregory Sword³, Iain D. Couzin²

¹ University of Konstanz
² Max Planck Institute of Animal Behavior
³ Texas A&M University

Collective motion, ubiquitous in nature, has traditionally been explained by ‘self-propelled particle’ models from theoretical physics. Here we show, via field, lab and virtual reality experimentation, that classical models of collective behavior cannot account for how collective motion emerges in marching desert locusts (whose swarms impact the livelihood of millions). In contrast with previous assumptions, locusts do not explicitly align with neighbors. While individuals respond to moving dot stimuli via the optomotor response, this innate behavior does not mediate social response to neighbors. By contrast, locust behavior, across scales, can be explained by a cognitive framework that explicitly considers the sensorial representation of (direction to, as opposed to direction of) neighbors. This challenges long-held beliefs about how order can emerge from disorder in animal collectives.