Beak-to-brain nerve may help birds navigate

Katia Moskvitch / ScienceNOW /


Published Jul 2, 2013 at 05:00AM / Updated Nov 19, 2013 at 12:31AM

In the days before GPS, we needed both a compass and a map to navigate. Migrating birds are no different. Studies have suggested that the animals rely on an internal map and compass to traverse large distances, though just where these senses reside is unclear. Now, scientists say they have the strongest evidence yet that map sense is associated with the beak.

Researchers have long suspected that migrating birds navigate by sensing Earth’s magnetic field.

The idea was that their beaks, which contain a lot of iron, worked like real magnets, with the metal aligning itself relative to the field. Supposedly, the so-called trigeminal nerve transmitted this information to the brain.

But in 2009, a team led by Henrik Mouritsen of the University of Oldenburg in Germany cut the trigeminal nerve in several European robins and found that the animals still oriented perfectly. In lab-based experiments, the birds were able to locate the natural and artificial magnetic north.

But Mouritsen’s team was still convinced that the beak had to be involved in the magnetosense in some way, and it decided to do another test. In 2010 and 2011, the scientists captured 57 Eurasian reed warblers near Kaliningrad, Russia. Every spring, these birds migrate northeast to their breeding grounds in southern Scandinavia, up to 1000 kilometers away. Once again, the scientists snapped the trigeminal nerve, in half of the birds. But then they also moved all 57 birds 1,000 kilometers to the east, where the magnetic field differs from their home site, and released them.

The warblers that had their beak-to-brain connection cut flew northeast, as if they had departed from near Kaliningrad — they had lost their “map sense” and could no longer determine their location. Those with the nerve intact, on the other hand, quickly oriented themselves and turned northwest, toward their breeding grounds. This meant that the beak-to-brain system, which, according to the earlier tests, had no impact on the “compass sense,” did matter for the “map sense” of the birds — if the link was damaged, the birds simply did not know they had been displaced.