© 2024 WKNO FM
Play Live Radio
Next Up:
0:00 0:00
Available On Air Stations

Trying To Unravel The Mysteries Of Arctic Warming

An iceberg is seen melting off the coast of Ammasalik, Greenland, in July 2007. This year, scientists say sea-ice extent in the Arctic has reached its lowest level since monitoring by satellite began in 1979, the result of rising temperatures.
John McConnico
An iceberg is seen melting off the coast of Ammasalik, Greenland, in July 2007. This year, scientists say sea-ice extent in the Arctic has reached its lowest level since monitoring by satellite began in 1979, the result of rising temperatures.

The Arctic is heating up faster than anyplace on Earth. And as it heats, the ice is growing thinner and melting faster. Scientists say that sometime this century, the Arctic Ocean could be free of ice during the summers. And that transition is likely to be chaotic.

Arctic sea ice has always seen dramatic swings. Every winter, the ocean is completely covered with ice. It starts to melt in the late spring, and by September about half that ice has melted away.

Now, add to that annual gyration a more recent trend. The seasonal melt has been claiming more and more ice since at least 1979, when researchers started monitoring that trend from space.

"Within the satellite record, this [year] is the lowest ice extent for July that we've ever seen," says Mark Serreze, who heads the National Snow and Ice Data Center at the University of Colorado.

In fact, current conditions aren't far from the 2007 record low for seasonal ice loss.

"The Arctic keeps surprising us," Serreze says. "The point is we're losing the sea ice faster than we think we ought to be. And this is causing us to revise some of our estimates."

Challenges To Predicting An Ice-Free Arctic

Just a few years ago, scientists forecast that global warming would clear summer ice from the Arctic Ocean by the year 2100. Now, many forecasts say that could happen in the middle of this century. And Serreze says a few peg that ice-free spell as early as 2030.

"We very likely will live to see ice-free summers in the Arctic," says Marika Holland, of the National Center for Atmospheric Research in Boulder, Colo. "Or if we don't live to see it, our children will."

Holland says nobody can pinpoint a date because Arctic sea ice is hard to predict year to year. That unpredictability has implications for people who are thinking about exploiting Arctic resources and expanding Arctic sea routes.

"Some of these shipping routes will become open much more reliably," she says. "But we're not close to that yet and we can't really predict exactly when that's going to happen."

The sea ice is at the mercy of currents, cloud patterns and a host of other variables that change naturally from year to year.

"We could have instances of very rapid sea-ice loss. Those might be followed for years, or even a decade, by quite stable sea-ice conditions. But it's difficult to predict exactly when these instances of rapid sea-ice loss could occur," Holland says.

Repercussions Ripple Outside Arctic

The consequences of melting ice are going to be felt first in the Arctic region. For example, polar bears and walruses rely on sea ice as hunting platforms and places to rest. As those ice edges move out into deeper water, farther from the shore, it will become harder for those animals to survive.

Leonid Polyak, from the Byrd Polar Research Center at Ohio State University in Columbus, says wildlife had to face a temporary warm spell in the Arctic about 8,000 years ago. Then, it was actually hotter than it is today, the result of a temporary change in the Earth's orientation relative to the sun. But this time is different.

"Significant changes in the ice cover will affect the ecological system very profoundly," Polyak says. "And it's not given that many of those species will survive if Arctic ice disappears completely in summer."

And the changes aren't just going to affect wildlife. The ice serves as a giant reflector for energy. Some 80 percent of the sun's energy bounces back into space when it hits the ice. But when the ice melts and exposes the ocean, that darker surface absorbs 90 percent of the incoming energy. As a result, the loss of ice leads to more warming.

That will drive up the temperature on nearby land masses. In the coming decades, the frozen ground that makes it relatively easy to get around in the Arctic will start turning to mush. And the effects of Arctic warming will gradually reach farther south.

"What happens in the Arctic affects heat waves in Chicago — or elsewhere," Holland says.

And then there's global sea-level rise — an effect that isn't as obvious as it might seem. Because when sea ice melts, it does not raise sea level. After all, lemonade doesn't overflow when the ice that's floating in it melts.

But what happens to the ice that's sitting out of the water, on the Greenland bedrock, is another story altogether.

"If we see this enhanced warming, due to sea-ice loss, we'll very likely start to melt more of the Greenland ice sheet," Holland says. "That water does lead to sea-level rise."

And those global impacts are going to be much more noticeable than the changes in the remote north, which will gradually reshape the Arctic.

Copyright 2023 NPR. To see more, visit https://www.npr.org.

Award-winning journalist Richard Harris has reported on a wide range of topics in science, medicine and the environment since he joined NPR in 1986. In early 2014, his focus shifted from an emphasis on climate change and the environment to biomedical research.