Sun Compass
sun compass
Investigating the sun compass in monarch butterflies (Danaus plexippus)
Every autumn, monarch butterflies migrate from North America to their overwintering sites in Central Mexico. To maintain their southward direction, these butterflies rely on celestial cues as orientation references. The position of the sun combined with additional skylight cues are integrated in the central complex, a region in the butterfly’s brain that acts as an internal compass. However, the central complex does not solely guide the butterflies on their migration but also helps monarchs in their non-migratory form manoeuvre on foraging trips through their habitat. By comparing the activity of input neurons of the central complex between migratory and non-migratory butterflies, we investigated how a different lifestyle affects the coding of orientation information in the brain.
State-dependent egocentric and allocentric heading representation in the monarch butterfly sun compass
For spatial orientation, heading information can be processed in two different frames of reference, a self-centered egocentric or a viewpoint allocentric frame of reference. Using the most efficient frame of reference is in particular important if an animal migrates over large distances, as it the case for the monarch butterfly (Danaus plexippus). These butterflies employ a sun compass to travel over more than 4,000 kilometers to their destination in central Mexico. We developed tetrode recordings from the heading-direction network of tethered flying monarch butterflies that were allowed to orient with respect to a sun stimulus. We show that the neurons switch their frame of reference depending on the animal’s locomotion state. In quiescence, the heading-direction cells encode a sun bearing in an egocentric reference frame, while during active flight, the heading-direction is encoded within an allocentric reference frame. By switching to an allocentric frame of reference during flight, monarch butterflies convert the sun to a global compass cue for long-distance navigation, an ideal strategy for maintaining a migratory heading.