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A vast wall in Antarctica could slow rising seas, but some scientists are wary of the idea

Wednesday - 26/09/2018 21:45
Engineering glaciers could slow sea-level rise at the source.
Thwaites Glacier acts like a giant cork that holds back the West Antarctic Ice Sheet.James Yungel / NASA
Thwaites Glacier acts like a giant cork that holds back the West Antarctic Ice Sheet.James Yungel / NASA

Glaciers are mighty rivers of ice that can carry boulders on their backs and grind valleys into rugged mountain ranges. But now, scientists say that humans might need to think about trying to engineer these formidable forces of nature.

Propping up glaciers in the Arctic and Antarctic might be the most targeted — and, amazingly, the cheapest — way to slow sea-level rise in a warming world, according to a new paper in the journal The Cryosphere. A seawall, or even just a series of artificial seamounts for the glacier to get stuck against, could hold back unimaginable amounts of meltwater, the research suggests.

Unlike building seawalls and dykes on coastlines the world over, engineering glaciers could slow sea-level rise at the source, leveling the playing field between wealthy nations and poorer ones. [Images: Greenland's Gorgeous Glaciers]

But the idea of engineering glaciers leaves some scientists uneasy, particularly because of the potential for unintended side effects. Talk of geoengineering can also give the public a false sense of security, said Valentina Roberta Barletta, a postdoctoral researcher who studies ice-sheet dynamics at the Technical University of Denmark.

"As a theoretical exercise, it's okay, it's good," Barletta, who was not involved in the current research, told Live Science. But, she said, "playing with public opinion about this stuff, it can be a little bit dangerous."

RUNAWAY MELT

The authors of the new paper certainly don't intend their research to be taken as an excuse to shrug off the consequences of greenhouse gas emissions. For one thing, said study co-author Michael Wolovick, a postdoctoral researcher at Princeton University, trying to slow the flow of glaciers does nothing to stanch the other catastrophes of climate change, from ocean acidification to droughts and floods to the inevitable sea-level rise that comes not from melting ice, but from seawater expanding as it warms.

But ice sheets are no small potatoes, as far as climate impacts go. Unfortunately for humanity, the Antarctic Ice Sheet is what is called "overdeepened." Its edges are grounded against seafloor that's shallower there than it is at its middle. If you were to imagine traveling from the edge of the ice sheet to the center, the seafloor would slope away beneath you. The point at which the ice transitions to being anchored on land to floating is called the grounding line.

Antarctica's glaciers are its bridge between ice shelf and ocean. As temperatures rise and glaciers melt, their grounding lines retreat — and the seafloor they're retreating onto is deeper than where they started. This means that the ice is prone to start floating, like an ice cube in a glass, said John Moore, a professor of climate change at the University of Lapland and the chief scientist at the College of Global Change and Earth System Science at Beijing Normal University. And floating ice is more prone to melt than grounded ice.

It's a positive-feedback system: The more the ice melts, the more likely it is to melt even more. If this “marine ice sheet instability” gets going, and some scientists think it has, even if all carbon emission came to an abrupt halt, the ice would still be gone, Moore said.

"You then think, 'Well, do we wave goodbye to the ice sheet, or are there actually any alternatives?’" he said.

STOPPING GLACIERS

Waving goodbye is an unappealing option. Even a sea-level rise of 3.9 feet (1.2 meters) in the next century could swamp coastlines and create a million climate refugees per year, the researchers wrote. Another several hundred million people would likely have to temporarily relocate each year, fleeing floods. A 2014 study in the journal Proceedings of the National Academy of Sciences estimated that protecting coastlines around the world will cost between $12 billion and $71 billion each year.

The outlet glaciers and the ice streams that will dump all this meltwater into the sea are relatively small compared with all that coastline, Wolovick and Moore said.

"The ice streams and outlet glaciers are very high leverage points in the climate system," Wolovick said.

The researchers used a very simple computer model to find out if engineering the glaciers would even be possible. They considered two possible solutions: First, they could build an undersea wall that would keep warm water away from the base of the ice, where it can do the most damage; second, they could create a series of small artificial mounds that would catch against the glacier, allowing it to reground, or stop floating. These structures would be built with dirt and rock either from the nearby seafloor, or perhaps barged in from elsewhere. [Images of Melt: Earth's Vanishing Ice]

Because there are many questions about how glaciers calve off icebergs and how they slide against the bedrock, the researchers ran multiple scenarios, altering those variables in each. They chose Antarctica's Thwaites Glacier as a test case because it's an enormous "cork" holding back the West Antarctic Ice Sheet.

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 Key: Glaciers

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