Litcius/Paper detail

Migratory birds can extract positional information from magnetic inclination and magnetic declination alone

Florian Packmor, Dmitry Kishkinev, Thomas Zechmeister, Henrik Mouritsen, Richard A. Holland

2024Proceedings of the Royal Society B Biological Sciences12 citationsDOIOpen Access PDF

Abstract

Migratory birds are able to navigate over great distances with remarkable accuracy. The mechanism they use to achieve this feat is thought to involve two distinct steps: locating their position (the ‘map’) and heading towards the direction determined (the ‘compass’). For decades, this map-and-compass concept has shaped our perception of navigation in animals, although the nature of the map remains debated. However, some recent studies suggest the involvement of the Earth’s magnetic field in the map step. Here, we tested whether migratory songbirds, Eurasian reed warblers ( Acrocephalus scirpaceus ), can determine their position based on two magnetic field components that are also associated with direction finding, i.e. magnetic inclination and magnetic declination. During a virtual magnetic displacement experiment, the birds were exposed to altered magnetic inclination and magnetic declination values that would indicate a displacement from their natural migratory corridor, but the total intensity of the field remained unchanged, creating a spatial mismatch between these components. The response was a change in the birds’ migratory direction consistent with a compensatory re-orientation. This suggests that birds can extract positional as well as directional information from these cues, even when they are in conflict with another component of the magnetic field. It remains to be seen whether birds use the total intensity of Earth’s magnetic field for navigation.

Topics & Concepts

DeclinationCompassEarth's magnetic fieldGeodesyMagnetic declinationHeading (navigation)MagnetoreceptionPosition (finance)Magnetic fieldGeologyGeographyCartographyPhysicsAstronomyEconomicsQuantum mechanicsFinanceElectromagnetic Fields and Biological EffectsNoise Effects and ManagementHemispheric Asymmetry in Neuroscience
Migratory birds can extract positional information from magnetic inclination and magnetic declination alone | Litcius