Abstract
In contrast with laboratory insect swarms, wild insect swarms display significant coordinated behaviour. Here it is hypothesised that the presence of a fluctuating environment drives the formation of transient, local order (synchronized subgroups), and that this local order pushes the swarm as a whole into a new state that is robust to environmental perturbations. The hypothesis finds support in a theoretical analysis and in an analysis of pre-existing telemetry data for swarming mosquitoes. I suggest that local order is sufficient to make swarms fault-tolerant and that the swarm state and structure may be tuneable with environmental noise as a control parameter. The new theory opens a window onto thermodynamic descriptions of swarm behaviours and extends a long-standing analogy with self-gravitating systems.
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