Molecular Action May Help Keep Birds on Course
Monday, May 5, 2008
Four decades after scientists showed that migratory birds use Earth's magnetic field to orient themselves during their seasonal journeys, researchers have at last found a molecular mechanism that may explain how they do it.
If the hypothesis is true, the planet's magnetic field lines -- which arch around Earth from north to south -- may be plainly visible to birds, like the dashed line in the middle of a road.
The work, described online yesterday in the journal Nature, was conducted in a test tube and does not prove that birds actually use the mechanism. And researchers aligned with a competing model say they are not convinced.
But by identifying for the first time a molecule that reacts to very weak magnetic fields, the experiments prove the plausibility of a long-hypothesized method of avian navigation that has had a credibility problem because no one had ever found a molecule with the required sensitivity.
"This is a proof of principle that a chemical reaction can act as a magnetic compass," said Peter Hore of the University of Oxford, who with fellow chemist Christiane Timmel led the research.
Hore is testing similar molecules, called cryptochromes, isolated from the eyes of migratory birds. Devens Gust, a chemist at Arizona State University who worked with Hore and Timmel, said the molecules "seem to have the right structural and chemical features to allow them to show this effect."
The seasonal comings and goings of birds have mystified people for millennia. Some early observers, noting that certain species routinely disappeared each year as others appeared, presumed that one species was somehow being transformed into the other. As late as the 18th century, an anonymous essayist who described himself simply as "a Person of Learning and Piety" concluded that many birds probably spend winters on the moon.
Recent scientific findings have seemed almost as incredible. By reversing the magnetic fields around captive birds as they prepared to migrate, scientists could induce them to take off in the wrong direction. The conclusion was that birds have a "sixth sense" that can detect magnetic energy the way eyes detect light and ears detect sound.
Two hypotheses have dominated. One centers on the discovery that birds (and other organisms, including salmon) make and store in their bodies a version of iron called magnetite, which orients itself to magnetic fields.
In birds, magnetite is often concentrated in the beak. Studies have shown that when the beaks of these birds are exposed to powerful magnetic fields -- or are numbed with an anesthetic -- the birds lose their ability to navigate properly.
But many scientists have suspected that another mechanism is also crucial -- one that can tell a bird not only which way is north but also how far it is from the equator by detecting the angle of magnetic field lines. Those lines emerge from Earth's magnetic poles perpendicular to the planet's surface, then arch overhead to meet over the equator, at which point they run parallel to the surface. If a bird could detect the angle of those lines relative to the surface, it could know, in effect, its latitude.