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"Upside-down rivers" threaten Antarctic ice shelves

The narrow Erebus Ice Tongue drains from the western slope of Mount Erebus, an active volcano, into frozen McMurdo Sound. Photo: Mike Lucibella/United States Antarctic Program

“Upside-down rivers” of warm ocean water are threatening the stability of floating ice shelves in Antarctica, according to a new study led by researchers at the National Snow and Ice Data Center published in the scientific journal Nature Geoscience.

 

The study highlights how parts of Antarctica’s ice sheet may be weakening due to contact with warm ocean water.

 

Ice sheets more vulnerable to disintegration

“We found that warm ocean water is carving ‘upside-down rivers,’ known as basal channels, into the undersides of ice shelves across the Antarctic continent. In at least some cases these channels weaken the ice shelves, making them more vulnerable to disintegration,” said Karen Alley, a graduate research assistant at NSIDC and lead author of the study. Alley is also a Ph.D. student in the University of Colorado Boulder’s Department of Geological Sciences.

 

Ice shelves are thick floating plates of ice that have flowed off the Antarctic continent and spread out onto the ocean. As ice shelves flow out to sea, they push against islands, peninsulas, and bedrock bumps known as “pinning points.” Contact with these features slows the flow of grounded ice off the continent. While ice shelves take thousands of years to grow, previous work has shown that they can disintegrate in a matter of weeks. If more ice shelves disintegrate in the future, loss of contact with pinning points will allow ice to flow more rapidly into the ocean, increasing the rate of sea level rise.

 

“Ice shelves are really vulnerable parts of the ice sheet, because climate change hits them from above and below,” said Ted Scambos, NSIDC lead scientist and study co-author. “They are really important in braking the ice flow to the ocean.”

 

How basal channels form

The features form as buoyant plumes of warm and fresh water rise and flow along the underside of an ice shelf, carving channels much like upside-down rivers. The channels can be tens of miles long, and up to 800 feet “deep”.

 

When a channel is carved into the base of an ice shelf, the top of the ice shelf sags, leaving a visible depression in the relatively smooth ice surface. Alley and her colleagues mapped the locations of these depressions all around the Antarctic continent using satellite imagery, as well as radar data that images the channels through the ice, mapping the shape of the ice-ocean boundary.

 

Channels growing at a rapid rate

The team also used satellite laser altimetry, which measures the height of an ice shelf surface with high accuracy, to document how quickly some of the channels were growing. The data show that growing channels on the rapidly melting Getz Ice Shelf in West Antarctica can bore into the ice shelf base at rates of approximately 10 meters (33 feet) each year.

 

The mapping shows that basal channels have a tendency to form along the edges of islands and peninsulas, which are already weak areas on ice shelves. The team observed two locations where ice shelves are fracturing along basal channels, clear evidence that basal channel presence can weaken ice shelves to the point of breaking in vulnerable areas.

 

While no ice shelves have completely disintegrated due to carving by basal channels, the study points to the need for more observation and study of these features, said co-author Helen Amanda Fricker of Scripps Institution of Oceanography at UC San Diego. “It's feasible that as ocean temperatures around Antarctica continue to rise, melting in basal channels could contribute to increased erosion of ice shelves from below."

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