Satellite Record Gives Unprecedented View of Antarctic Ice Shelf Melt Pattern over 25 Years
New estimates of ice shelf melting around Antarctica since the 1990s show where and when ice has been lost and where meltwater entered the Southern Ocean
- Robert Monroe
- Robert Monroe - firstname.lastname@example.org
- Robert Monroe
A science team led by researchers at Scripps Institution of Oceanography at UC San Diego has created a detailed history of mass loss from Antarctica’s floating ice shelves.
The researchers used a 25-year record of data from four separate European Space Agency satellite missions, NASA ice velocity data, and outputs from NASA computer models to find that these ice shelves have experienced a loss of nearly 4,000 gigatons since 1994 — producing an amount of meltwater that can nearly fill the Grand Canyon — as a result of melting from increased heat in the ocean under the ice shelves.
“This is the most convincing evidence so far that long-term changes in the Southern Ocean are the reason for ongoing Antarctic ice loss,” said lead author and Scripps Oceanography graduate student Susheel Adusumilli. “It’s incredible that we are able to use satellites that orbit above the earth to see changes in regions of the ocean where even ships can’t go.”
The NASA-funded study appears Aug. 10 in the journal Nature Geoscience and includes co-authors from NASA’s Goddard Space Flight Center, Earth and Space Research in Corvallis, Ore. and Colorado School of Mines.
Detailed information on Antarctic ice shelves is hard to come by because of their vast size, and the difficulty for scientists to physically reach them. Satellites allow for year-round monitoring and are the only practical way to routinely collect information on Antarctic ice loss. For this study, the team used data from European Space Agency radar satellites, which send radio waves to the ground up to 20,000 times a second and measure the travel time of those waves as they bounce back to the satellite. Researchers can use that information to determine the precise height of land or ice.
The result of analyzing these radar signals is the first-ever analysis of changes in melt of all Antarctic ice shelves, which collectively cover an area of 1.5 million square kilometers (580,000 square miles) – more than three times larger than California.
The 25-year record showed that there is a lot of variation around Antarctica in the rate at which the ocean is melting the ice shelves, but in total, there is more loss than gain of ice shelf mass. Although ice shelf loss itself does not directly contribute to sea-level rise because ice shelves are already floating, ice shelves do act as a buffer to help slow the slide of ice sheets from land into the ocean, and when they become smaller this effect is weakened. If the West Antarctic Ice Sheet were to completely melt into the ocean, it would raise sea levels worldwide by around 3 meters (10 feet). Although that amount of melt is unlikely in the coming decades, even four inches of sea-level rise can double the frequency of flooding on the U.S. West Coast.
The researchers also identified the depths in the ocean at which melting is occurring. This is important, they said, because increased melting of ice shelves has major environmental consequences beyond global sea-level rise. Melting ice produces water that is colder and fresher than the surrounding ocean. Depending on where this water ends up in the ocean, it can have a large effect on ocean circulation and climate around the globe.
“We now have a continuous and detailed record of how all the ice shelves have changed since the mid 1990s, and where the meltwater has entered the ocean,” said Scripps Oceanography glaciologist Helen Amanda Fricker, a co-author. “This will allow us to decipher the atmospheric and ocean forces responsible for the changes, and how the meltwater affects the ocean, allowing us to improve models that predict future sea-level rise.”
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