The giants that migrate farther than any other mammal on Earth, humpback whales, do so with mysterious, extraordinary accuracy, veering off course by less than 1 degree over hundreds of miles, scientists find.
Humpback whales (Megaptera novaeangliae
) regularly swim roughly 3,000 miles (5,000 kilometers) between breeding and feeding grounds. However, a record-setting female humpback
was recently discovered traveling from Brazil to Madagascar, a voyage of at least 6,090 miles (9,800 km) — the longest documented migration
by any mammal ever.
To learn more about these remarkable migrations, scientists embedded radio tags in the skin and blubber of 16 humpbacks and used satellites to track them from 2003 to 2010. (The tags, about 8 to 12 inches long — 20 to 30 centimeters — were designed to fall off their bodies over time.) [Images of whales being tagged
The humpbacks were tracked migrating southeastward from Brazil in the Atlantic Ocean and New Caledonia in the Pacific Ocean and west-northwestward from the Pacific island of Rarotonga. [Top 10 Most Incredible Animal Journeys
"The Brazil and New Caledonia whales were clearly migrating away from low-latitude calving grounds towards high-latitude feeding grounds," said researcher Travis Horton, an environmental
scientist at the University of Canterbury in New Zealand. "The movements of the Rarotonga whales are anomalous and remain difficult to explain, as we would expect them to be moving in an overall southerly direction by late winter."
The whales each traveled distances of at least 120 miles (200 km). They moved in astonishingly straight lines, with most straying off course by 1 degree or less. The humpback that swam the most, a 28-day voyage of 1,386 miles (2,232 km), veered just 0.4 degrees off.
It remains a mystery how these whales are capable of such exceptional precision. For instance, buoys along their routes showed that highly variable sea currents were capable of significantly deflecting their headings.
Animals are known to figure out direction over long distances from the Earth's magnetic field
or the direction of the sun. For instance, researchers of tiger sharks and thresher sharks
recently said cues from Earth's magnetic fields may what enables those sharks to orient themselves and travel spot-on toward a far target.
In the case of the humpback whales, however, magnetic cues by themselves might not help, as the Earth's magnetic field varied widely along each whale's voyage, with magnetic north changing by as much as 12 percent and as little as 0.5 percent across these journeys. Similarly, the sun alone could not explain the whales' success. Humpbacks from the same area were found to follow similar headings despite seeing the sun in different positions in the sky, and they also followed different headings despite seeing the sun in similar positions.
"Although we saw no clear relationship between solar
and magnetic directional cues and whale headings, it is entirely possible that they are using both the sun and magnetic field in a coupled system of orientation," Horton said.
The scientists detailed their findings online April 20 in the journal Biology Letters.
"We have a reasonable handle now on what they are doing, but very little information on how they are doing it," Horton told Live Science. "As more data
becomes available, we will transition from 'what they're doing' studies to more process-oriented 'how they're doing it' interpretations."
This article was reprinted with permission from LiveScience.
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