The Magnetic North Pole Is Rapidly Moving Because of Some Blobs

illustration of earth's magnetic field
Two Blobs Blamed for Wandering Magnetic North PolePeter Reid

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  • Earth’s magnetic north pole has shifted away from Canada and closer to Siberia at a rapid pace in recent years.

  • Researchers believe two massive blobs of molten iron in Earth’s outer core may have spurred the runaway pole.

  • There’s no telling where it will end up.

The magnetic north pole just isn’t where it used to be.

Ever since the British polar explorer James Clark Ross first identified it on the Boothia Peninsula in Canada’s Nunavut territory in 1831, scientists have been carefully measuring its location. But in recent years, our north pole has been inching closer and closer to Siberia at a surprisingly rapid pace.

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In 2020, researchers from the United Kingdom and Denmark uncovered the reason for this mysterious movement: two writhing lobes of magnetic force, duking it out near Earth’s core.

“The wandering of Earth’s north magnetic pole, the location where the magnetic field points vertically downwards, has long been a topic of scientific fascination,” the researchers write in their paper, which appears in the journal Nature Geoscience.

Earth’s magnetic field is generated by molten iron in its outer core. The flow of this liquid iron can influence the location of the planet’s magnetic poles. While poles have drifted and even swapped places numerous times over the course of Earth’s long history, what’s different about this recent shift is how quickly it’s happening. From 1999 to 2005, Earth’s magnetic north pole went from shifting nine miles at most each year to as much as 37 miles in a year.

map showing earth north magnetic pole shifting over years
Earth’s magnetic north pole is shiftingNature Geoscience

These scientists pored over 20 years of satellite data from the European Space Administration’s Swarm satellite mission and discovered that “over the last two decades the position of the north magnetic pole has been largely determined by two large-scale lobes of negative magnetic flux on the core–mantle boundary under Canada and Siberia,” according to the study.

Between 1970 and 1999, the flow of molten, magnetic material in Earth’s outer core changed. Because of these changes, the researchers say, the magnetic blob lurking beneath Canada slowly elongated in the early aughts, weakening the corresponding magnetic intensity on Earth’s surface.

Eventually, the blob of molten material beneath Canada split in two and the stronger one slowly shifted toward the blob beneath Siberia. This spurred the magnetic north pole to slip closer and closer to Siberia, where the magnetic intensity was stronger.

In 2017, the magnetic north pole fell within 240 miles of the geographic north pole. The movement has been so rapid that the British Geological Survey and National Centers for Environmental Information (formerly the U.S. National Geophysical Data Center)—which updates the World’s Magnetic Model—had to accelerate its process in order to keep up. As of 2021, the pole was projected to have moved beyond the Canadian Arctic. It has been drifting at an average speed of 27.3 miles per year since 2020, according to the latest World Magnetic Model report.

The scientists generated a series of models of Earth’s core in an effort to understand how it might move in the future. “Our predictions are that the pole will continue to move towards Siberia, but forecasting the future is challenging and we cannot be sure,” the study’s lead author, geophysicist Phil Livermore of the University of Leeds, told Live Science.

These shifts have major consequences for global navigation systems. Anything or anyone that uses a compass—from ships at sea to the smartphones in our pockets—is impacted by this magnetic game of tug-of-war.

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