New maps chart Greenland glaciers' melting risk
Many large glaciers in Greenland are at greater risk of melting from below than previously thought, according to new maps of the seafloor around Greenland created by an international research team. Like other recent research findings, the maps highlight the critical importance of studying the seascape under Greenland's coastal waters to better understand and predict global sea level rise.
|The new maps show that the seafloor under Store Glacier, shown here, is almost 2,000 feet (600 meters) deeper|
than previously thought [Credit: NASA/JPL-Caltech/Ian Fenty]
Why does this matter? Because glaciers that flow into the ocean melt not only from above, as they are warmed by sun and air, but from below, as they are warmed by water.
In most of the world, a deeper seafloor would not make much difference in the rate of melting, because typically ocean water is warmer near the surface and colder below. But Greenland is exactly the opposite. Surface water down to a depth of almost a thousand feet (300 meters) comes mostly from Arctic river runoff. This thick layer of frigid, fresher water is only 33 to 34 degrees Fahrenheit (1 degree Celsius). Below it is a saltier layer of warmer ocean water. This layer is currently more than more than 5 degrees F (3 degrees C) warmer than the surface layer, and climate models predict its temperature could increase another 3.6 degrees F (2 degrees C) by the end of this century.
|A comparison of the newly compiled map of the Uummannaq fjord area (left) and an older map (right). Red areas |
indicate shallower depths, blues and purples deeper [Credit: UCI/NASA/JPL-Caltech]
"While we expected to find deeper fjords than previous maps showed, the differences are huge," said Eric Rignot of UCI and JPL, lead author of a paper on the research. "They are measured in hundreds of meters, even one kilometer [3,300 feet] in one place." The difference means that the glaciers actually reach deeper, warmer waters, making them more vulnerable to faster melting as the oceans warm.
Coauthor Ian Fenty of JPL noted that earlier maps were based on sparse measurements mostly collected several miles offshore. Mapmakers assumed that the ocean floor sloped upward as it got nearer the coast. That's a reasonable supposition, but it's proving to be incorrect around Greenland.
Rignot and Fenty are co-investigators in NASA's five-year Oceans Melting Greenland (OMG) field campaign, which is creating similar charts of the seafloor for the entire Greenland coastline. Fenty said that OMG's first mapping cruise last summer found similar results. "Almost every glacier that we visited was in waters that were far, far deeper than the maps showed."
The researchers also found that besides being deeper overall, the seafloor depth is highly variable. For example, the new map revealed one pair of side-by-side glaciers whose bottom depths vary by about 1,500 feet (500 meters). "These data help us better interpret why some glaciers have reacted to ocean warming while others have not," Rignot said.
The lack of detailed maps has hampered climate modelers like Fenty who are attempting to predict the melting of the glaciers and their contribution to global sea level rise. "The first time I looked at this area and saw how few data were available, I just threw my hands up," Fenty said. "If you don't know the seafloor depth, you can't do a meaningful simulation of the ocean circulation."
Author: Alan Buis | Source: Jet Propulsion Laboratory [April 23, 2016]