One of the world's fastest-shrinking glaciers is growing again, study finds

A major Greenland glacier that was one of the fastest-shrinking ice and snow masses on Earth is growing again, a NASA study finds.

Lower ocean temperature adds to Greenland's Jakobshavn glacier, but scientists say growth is temporary

Patches of bare land at the Jakobshavn glacier in western Greenland are shown in this 2016 photo. In the last two years, the glacier has started growing again at about the same rate it was shrinking in 2012, according to a study by NASA. Study authors and outside scientists think this reversal is temporary. (NASA via AP)

A major Greenland glacier that was one of the fastest-shrinking ice and snow masses on Earth is growing again, a NASA study has found.

The Jakobshavn glacier around 2012 was retreating about three kilometres and thinning nearly 40 metres annually. But it started growing again at about the same rate in the past two years, according to a study in Monday's Nature Geoscience. Study authors and outside scientists think this is temporary.

"That was kind of a surprise. We kind of got used to a runaway system," said Jason Box, an ice and climate scientist with the Geological Survey of Denmark and Greenland. "The good news is that it's a reminder that it's not necessarily going that fast. But it is going."

Box, who wasn't part of the study, said Jakobshavn is "arguably the most important Greenland glacier because it discharges the most ice in the Northern Hemisphere. For all of Greenland, it is king."

A natural cyclical cooling of North Atlantic waters likely caused the glacier to reverse course, said study lead author Ala Khazendar, a NASA glaciologist on the Oceans Melting Greenland (OMG) project. Khazendar and colleagues say this coincides with a flip of the North Atlantic Oscillation — a natural and temporary cooling and warming of parts of the ocean that is like a distant cousin to El Niño in the Pacific.

May 30, 2012, photo shows an iceberg in or just outside the Ilulissat fjord that likely calved from the Jakobshavn glacier in west Greenland. (Ian Joughin/Associated Press)

The water in Disko Bay, where Jakobshavn hits the ocean, is about 2 C cooler than a few years ago, study authors said.

While this is "good news" on a temporary basis, this is bad news on the long term because it tells scientists that ocean temperature is a bigger player in glacier retreats and advances than previously thought, said NASA climate scientist Josh Willis, a study co-author. Over the decades, the water has been and will be warming from man-made climate change, he said, noting about 90 per cent of the heat trapped by greenhouse gases goes into the oceans.

"In the long run, we'll probably have to raise our predictions of sea level rise again," Willis said.

Think of the ocean temperatures near Greenland like an escalator that's rising slowly from global warming, Khazendar said. But the natural North Atlantic Oscillation sometimes is like jumping down a few steps or jumping up a few steps. The water can get cooler and have effects, but in the long run it is getting warmer and the melting will be worse, he said.

In the long run, we'll probably have to raise our predictions of sea level rise again.- Josh Willis, study co-author

Four outside scientists said the study and results make sense.

University of Washington ice scientist Ian Joughin, who wasn't part of the study and predicted such a change seven years ago, said it would be a "grave mistake" to interpret the latest data as contradicting climate change science.

What's happening, Joughin said, is "to a large extent, a temporary blip. Downturns do occur in the stock market, but overall, the long-term trajectory is up. This is really the same thing."


To encourage thoughtful and respectful conversations, first and last names will appear with each submission to CBC/Radio-Canada's online communities (except in children and youth-oriented communities). Pseudonyms will no longer be permitted.

By submitting a comment, you accept that CBC has the right to reproduce and publish that comment in whole or in part, in any manner CBC chooses. Please note that CBC does not endorse the opinions expressed in comments. Comments on this story are moderated according to our Submission Guidelines. Comments are welcome while open. We reserve the right to close comments at any time.

Become a CBC Member

Join the conversation  Create account

Already have an account?