Earth’s rotating inner core is starting to slow down — and it could alter the length of our days

Earth’s rotating inner core is starting to slow down — and it could alter the length of our days

A new study confirms that Earth’s inner core has been rotating more slowly than usual since 2010. This mysterious “backtracking” could also end up slightly altering the planet’s overall rotation, lengthening our days.
The heart of our planet has been spinning unusually slowly for the past 14 years, new research confirms. And if this mysterious trend continues, it could potentially lengthen Earth’s days — though the effects would likely be imperceptible to us.

Earth’s inner core is a roughly moon-size chunk of solid iron and nickel that lies more than 3,000 miles (4,800 kilometers) below our feet. It is surrounded by the outer core — a superhot layer of molten metals similar to those in the inner core — which is surrounded by a more solid sea of molten rock, known as the mantle, and the crust. Although the entire planet rotates, the inner core can spin at a slightly different speed as the mantle and crust due to the viscosity of the outer core.

Since scientists started mapping Earth’s inner layers with detailed seismic activity records around 40 years ago, the inner core has rotated slightly faster than the mantle and the crust. But in a new study, published June 12 in the journal Nature, researchers found that since 2010, the inner core has been slowing down and is now rotating a bit more slowly than our planet’s outer layers.

“When I first saw the seismograms that hinted at this change, I was stumped,” John Vidale, a seismologist at the University of Southern California, Dornsife, said in a statement. “But when we found two dozen more observations signaling the same pattern, the result was inescapable.”

If the inner core’s rotation continues to decelerate, its gravitational pull could eventually cause the outer layers of our planet to spin a little more slowly, altering the length of our days the researchers wrote. 

However, any potential change would be on the order of thousandths of a second, which would be “very hard to notice,” Vidale said. As a result, we would likely not have to change our clocks or calendars to adjust for this difference, especially if it were only a temporary change