Study shows Thwaites Glacier's ice loss may not progress as quickly as thought

Study shows Thwaites Glacier's ice loss may not progress as quickly as thought
Thwaites Glacier. Credit: NASA/James Yungel

The melt rate of West Antarctica's Thwaites Glacier is an important concern, because this glacier alone is currently responsible for about 1 percent of global sea level rise. A new NASA study finds that Thwaites' ice loss will continue, but not quite as rapidly as previous studies have estimated.

The new study, published in the journal Geophysical Research Letters, finds that numerical models used in previous studies have overestimated how rapidly is able to melt the glacier from below, leading them to overestimate the glacier's total ice loss over the next 50 years by about 7 percent.

Thwaites Glacier covers an area nearly as large as the state of Washington (70,000 square miles, or 182,000 square kilometers). Satellite measurements show that its rate of has doubled since the 1990s. The glacier has the potential to add several inches to .

The new study is led by Helene Seroussi, a scientist at NASA's Jet Propulsion Laboratory in Pasadena, California. It is the first to combine two computer models, one of the Antarctic ice sheet and one of the Southern Ocean, in such a way that the models interact and evolve together throughout an experiment—creating what scientists call a coupled model.

Previous modeling studies of the glacier used only an ice sheet model, with the effects of the ocean specified beforehand and unchanging.

Seroussi and colleagues at JPL and the University of California at Irvine (UCI) used an ocean model developed at the Massachusetts Institute of Technology in Cambridge with an ice sheet model developed at JPL and UCI. They used data from NASA's Operation Icebridge and other airborne and satellite observations, both to set up the numerical model simulations and to check how well the models reproduced observed changes.

Study shows Thwaites Glacier's ice loss may not progress as quickly as thought
Ice velocities (meters per year) of Thwaites Glacier (approximate location outlined with dashed line)and neighboring glaciers in West Antarctica; inset map shows location. The ocean bottom temperature appears as shades of red (degrees Celsius). Ocean areas shown in gray are too shallow to affect the glacial undersides. Credit: NASA/JPL-Caltech

Glaciers have beds just as rivers do, and most glacier beds slope downhill in the same direction the glacier is flowing, as a riverbed does. Thwaites Glacier's bed does the opposite: it slopes uphill in the direction of flow. The bedrock under the glacier's ocean front is higher than bedrock farther inland, which has been pushed down over the millennia by its heavy burden of ice.

Thwaites has lost so much ice that it floats where it used to be attached to bedrock. That has opened a passageway underneath the glacier where ocean water can seep in.

In this part of Antarctica, the warm, salty, deep ocean current that circles the continent comes near land, and warm water can flow onto the continental shelf. This warm seawater now seeps beneath Thwaites Glacier, melting it from below.

As the glacier continues to melt, grow thinner and float off bedrock farther and farther inland, new cavities will continue to open up. Because the bedrock slopes downhill, there's no natural barrier to stop this process. Earlier modeling studies assumed that water in the new cavities would continue to melt the glacial underside at the same rate that it's melting now.

Seroussi's coupled found that water circulation is more restricted in these narrow spaces, and as a result, the will melt the ice more slowly than previously thought.

Seroussi noted that critical factors affecting Thwaites, such as how nearby temperatures will change, are still unknown and represented by different scenarios in different studies. However, "Our results shift the estimates for sea level rise to smaller numbers regardless of the scenario," she said.

More information: H. Seroussi et al. Continued retreat of Thwaites Glacier, West Antarctica, controlled by bed topography and ocean circulation, Geophysical Research Letters (2017). DOI: 10.1002/2017GL072910

Journal information: Geophysical Research Letters

Provided by NASA

Citation: Study shows Thwaites Glacier's ice loss may not progress as quickly as thought (2017, June 1) retrieved 29 March 2024 from https://phys.org/news/2017-06-thwaites-glacier-ice-loss-quickly.html
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