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Magnetic fields light up 'GPS neurons', scientists say

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Earth's magnetic field artwork
Image caption,

Magnetic field lines indicate not only which way is north, but also give a general idea of latitude

Researchers have spotted a group of 53 cells within pigeons' brains that respond to the direction and strength of the Earth's magnetic field.

The question of how birds navigate using - among other signals - magnetic fields is the subject of much debate.

These new "GPS neurons" seem to show how magnetic information is represented in birds' brains.

However, the study <link> <caption>reported by Science</caption> <url href="http://www.sciencemag.org/content/early/2012/04/25/science.1216567" platform="highweb"/> </link> leaves open the question of how they actually sense the magnetic field.

David Dickman of the Baylor College of Medicine in the US set up an experiment in which pigeons were held in place, while the magnetic field around them was varied in its strength and direction.

Prof Dickman and his colleague Le-Qing Wu believed that the 53 neurons were candidates for sensors, so they measured the electrical signals from each one as the field was changed.

Every neuron had its own characteristic response to the magnetic field, with each giving a sort of 3-D compass reading along the familiar north-south directions as well as pointing directly upward or downward.

In life, this could help the bird determine not only its heading just as a compass does, but would also reveal its approximate position.

Each cell also showed a sensitivity to field strength, with the maximum sensitivity corresponding to the strength of the Earth's natural field.

And just like a compass, the neurons had opposite responses to different field "polarity" - the magnetic north and south of a field, which surprised the researchers most of all.

"People had reported in the past, <link> <caption>in a 1972 paper in Science</caption> <url href="http://www.sciencemag.org/content/176/4030/62.abstract" platform="highweb"/> </link> , establishing that birds do not seem to respond to the polarity of the magnetic field, yet here we have neurons that are in fact doing that," Prof Dickman told 大象传媒 News.

"That's one of the beautiful aspects of what we've identified, because it shows how single brain cells can record multiple properties or complex qualities in a simple way."

'Be puzzled'

Several hypotheses hold that birds' magnetic navigation arises in cells that contain tiny chunks of metal in their noses or beaks, or possibly in an inner ear organ.

However, the most widely held among them was thrown into question recently when researchers <link> <caption>found that purported compass cells in pigeon beaks were in fact a type of white blood cell</caption> <url href="http://www.nature.com/nature/journal/v484/n7394/full/nature11046.html" platform="highweb"/> </link> .

Another theory suggests that a magnetic sense may come about in receptors in birds' eyes. When exposed to light, the theory says, molecules called cryptochromes undergo a fleeting change in their atomic makeup whose length depends on their alignment with a field.

The new work throws this latter possibility into question, as it would work equally well with a north- or south-pointing field.

Asked what an outsider should think, given that the recent results conflict with the two most plausible explanations for birds' remarkable navigation abilities, Prof Dickman said "be puzzled, because I am".

"We're leaning toward a third receptor in the inner ear, and we're doing experiments to try to determine whether it is in fact a receptor or not."

Henrik Mouritsen of the University of Oldenburg in Germany regards the current results with caution.

"[Magnetism-sensitive neurons] must be in the brain in several places... and maybe Dr Dickman has found them. If he has, it's a very, very important finding, but only time will tell," he told 大象传媒 News.

"There have been lots of claims of something similar to this, and so far every one has turned out to not be independently reproducible."

Both researchers concede that more than one mechanism may be at work in bird navigation - in their eyes, beaks or ears - and Prof Dickman said he is looking forward to getting to the bottom of it.

"That's what makes this whole field exciting, because there are these competing ideas out there and now, since we've discovered regions in the brain that are actually responding to the magnetic field, it intensifies our search for the receptor and how it might work."

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