Understanding Antarctic Ice Loss
October 22, 2012

GRACE Sheds New Light On Antarctic Ice Loss

Alan McStravick for redOrbit.com — Your Universe Online

Amazing GRACE. Scientists and researchers have some interesting news out of Antarctica. The rate of global sea level change has been fairly well-established. The understanding for exactly why this is occurring got a new wrinkle this past week. Utilizing the Gravity Recovery and Climate Experiment (GRACE) satellite data, a team was able to more accurately calculate the ice sheet mass loss by mapping and removing the mass changes caused by the flow of rock beneath the Earth´s surface.

This new data presents a more accurate rate of ice-melt on the continent which can lead us to a better understanding of how Antarctica is changing in light of global warming. By using these re-calibrated “scales” in the form of GRACE, the team was able to “weigh” the ice sheets from space. The international team, led by Newcastle University, discovered that Antarctica overall is contributing much less to the substantial sea-level rise than had originally been thought.

In the team´s findings, published in the academic journal Nature, they determined the large amount of water flowing away from West Antarctica through ice-melt has been partly cancelled out by the sheer volume of precipitation, in the form of snow, that falls onto the continent. This suggests that previous studies have greatly overestimated Antarctica´s contribution to the fast-rising sea levels.

Professor Matt King, the project leader, has said the data meant we were at last close to understanding how Antarctica is changing.

“We have tried to weigh the ice in the past but GRACE only measures the combined effect of the ice changes and the land mass changes occurring beneath the Earth´s surface,” explains Professor King, Professor of Polar Geodesy at Newcastle University. “The step forward we have made is to provide a better calculation of the land mass changes so we can correct the satellite measurements to more accurately calculate the changes in ice mass alone.

“Our ice change calculations rely heavily on how well we can account for these important changes taking place beneath the Earth´s surface. While the land beneath the ice is moving by no more than a few millimeters-per-year — the thickness of a fingernail —that seemingly small effect significantly alters the rate at which we estimate the ice is changing.

“By producing a new estimate of the land motion we´re effectively re-calibrating the scales — in this case the GRACE satellite —so we can more accurately weigh the ice. And what we´ve found is that present sea level rise is happening with apparently very little contribution from Antarctica as a whole.”

One of the inherent difficulties faced by this study and its researchers is the fact that a significant majority of the Antarctic land surface is covered by ice making it incredibly difficult to determine where and when it is rising and falling and by how much. This fact had meant GRACE data wasn´t able to contribute as much as it could to help scientists understand if Antarctica was growing or shrinking.

“We´re now confident it is shrinking,” says Professor King. “Our new estimate of land motion helps us narrow the range and shifts the best estimate to the lower end of the ice melt spectrum.

“Worryingly, though, the rate of shrinking has sped up in some important locations. The parts of Antarctica that are losing mass most rapidly are seeing accelerated mass loss and this acceleration could continue well into the future.”

“The sea level change we´re seeing today is happening faster than it has for centuries with just a small contribution from the massive Antarctic ice sheet. What is sobering is that sea levels will rise even faster if Antarctica continues to lose increasingly more ice into the oceans.”

Looking far back, the ice sitting on the Antarctic continent dating to the peak of the last ice age, some 20,000 years ago, forced the rock beneath to deform and slowly flow away. From there, the ice levels generally reduced and the rock within the Earth´s mantle, as deep as 100km below the surface, began to slowly flow back in. This sedimentary change affects the GRACE satellites in exactly the same way as ice moving into and out of the continent.

Since their launch in 2002, the GRACE satellites allow scientists to map Earth´s gravity field every 30 days, mapping changes as mass moves around the Earth´s surface as well as below it.

Newcastle University´s Dr. Rory Bingham adds: “There are lots of measurements that tell us something about the recent state of the Antarctic Ice Sheet, but none of those measurements gives the complete picture.

“This research starts to pull that picture together, providing the most accurate GRACE estimate so far of Antarctica's contribution to sea level as a whole, as well as identifying which regions are changing and which are not.

Professor Mike Bentley, of Durham University, who was part of the project team said, “This project brought together a range of scientists including geologists, geodesists and computer modellers to work out the contribution of the Antarctic ice sheets to global sea level rise. We have shown that the Antarctic contribution is smaller than some previous estimates, but the ice sheet is changing very rapidly in some key regions”.

The research is part of a £600,000 project funded by the Natural Environment Research Council (NERC) to investigate the changing mass of the Antarctic Ice Sheet.