A loggerhead sea turtle nests at the Archie Carr National Wildlife Refuge in Melbourne Beach, Florida. Credit: J. Roger Brothers |
Live Science | Jan 15, 2015 | Laura Geggel |
Female sea turtles, known to swim thousands of miles before returning to their birthplace to lay eggs, find their way home by relying on unique magnetic signatures along the coast, a new study finds.
For more than 50 years, scientists have been mystified by how sea turtles do this, said the study's lead researcher, J. Roger Brothers, a graduate student of biology at the University of North Carolina at Chapel Hill.
"Our results provide evidence that turtles imprint on the unique magnetic field of their natal beach as hatchlings, and then use this information to return as adults," Brothers said in a statement.
Previous studies have shown that sea turtles use Earth's magnetic field to help guide them at sea, but it was unclear whether magnetic features also help steer them toward the nesting sites chosen by their mothers, the researchers said.
To investigate, the scientists examined a database of records covering 19 years of loggerhead sea turtle (Caretta caretta) nesting along the eastern coast of Florida, the largest sea turtle rookery in North America. Earth's magnetic field, which acts as a giant invisible shield that protects the planet from dangerous solar radiation, changes over time. Earth's iron core is surrounded by a layer of molten metal, and as this molten metal sloshes around, it causes fluctuations in the magnetic field, with some areas strengthening and others weakening.
The researchers wondered whether turtles had changed their nesting locations as magnetic signatures drifted across the coast
A loggerhead sea turtle heads toward the water in Melbourne Beach, Florida. Credit: J. Roger Brothers |
A look at the data, from 1993 to 2011, confirmed this idea. At certain times in some places, Earth's magnetic field shifted so that magnetic signals from nearby beaches moved closer together. During these times, turtle nests densely covered these areas, they found.
Similarly, there were fewer turtle nests, and the nests were farther apart, in places where magnetic signatures diverged, just as the researchers predicted.
"Our results provide the strongest evidence to date that sea turtles find their nesting areas at least in part by navigating to unique magnetic signatures along the coast," the researchers wrote in the study.
Scientists are unsure how turtles detect the geomagnetic field, but it's possible that tiny magnetic particles in their brains help the turtles process unique signatures, Brothers said.
Whatever the mechanism, it clearly helps sea turtles find their birthplace so they can reproduce, usually on accessible beaches that have soft sand, the right temperature and few predators.
"The only way a female turtle can be sure that she is nesting in a place favorable for egg development is to nest on the same beach where she hatched," Brothers said. "The logic of sea turtles seems to be that 'If it worked for me, it should work for my offspring.'"
The study was published today (Jan. 15) in the journal Current Biology.
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