Litcius/Paper detail

The long-distance flight behavior of <i>Drosophila</i> supports an agent-based model for wind-assisted dispersal in insects

Katherine J. Leitch, Francesca V. Ponce, William Dickson, Floris van Breugel, Michael H. Dickinson

2021Proceedings of the National Academy of Sciences90 citationsDOIOpen Access PDF

Abstract

We deployed chemically baited traps in a 1 km radius ring around the release site, equipped with cameras that captured the arrival times of flies as they landed. In each experiment, we released between 30,000 and 200,000 flies. By repeating the experiments under a variety of conditions, we were able to quantify the influence of wind on flies' dispersal behavior. Our results confirm that even tiny fruit flies could disperse ∼12 km in a single flight in still air and might travel many times that distance in a moderate wind. The dispersal behavior of the flies is well explained by an agent-based model in which animals maintain a fixed body orientation relative to celestial cues, actively regulate groundspeed along their body axis, and allow the wind to advect them sideways. The model accounts for the observation that flies actively fan out in all directions in still air but are increasingly advected downwind as winds intensify. Our results suggest that dispersing insects may strike a balance between the need to cover large distances while still maintaining the chance of intercepting odor plumes from upwind sources.

Topics & Concepts

Biological dispersalEcologyIdentification (biology)BiologyDrosophila (subgenus)EcosystemOrganismKey (lock)Evolutionary biologyPopulationPaleontologySociologyGeneDemographyBiochemistryPlant and animal studiesInsect and Arachnid Ecology and BehaviorForest Insect Ecology and Management