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The Greenland Ice Sheet is close to a melting point of no return, says new study

The Greenland Ice Sheet is close to a melting point of no return
Equilibrium states of the volume of the Greenland Ice Sheet (GIS) (black dots) with respect to pre-industrial as a function of atmospheric CO2 concentration (top left) and corresponding temperature anomaly (top right). The blue curve refers to increasing CO2 concentration starting from the pre-industrial GIS, the other curves to decreasing CO2 starting from a completely ice free GIS (red curve) and from intermediate states (yellow and purple curves), respectively. The bottom panel illustrates the GIS thickness at the points A–D. Credit: Geophysical Research Letters (2023). DOI: 10.1029/2022GL101827

The Greenland Ice Sheet covers 1.7 million square kilometers (660,200 square miles) in the Arctic. If it melts entirely, global sea level would rise about 7 meters (23 feet), but scientists aren't sure how quickly the ice sheet could melt. Modeling tipping points, which are critical thresholds where a system behavior irreversibly changes, helps researchers find out when that melt might occur.

Based in part on carbon emissions, a new study using simulations identified two for the Greenland Ice Sheet: releasing 1000 gigatons of carbon into the atmosphere will cause the southern portion of the ice sheet to melt; about 2500 gigatons of carbon means permanent loss of nearly the entire ice sheet.

Having emitted about 500 gigatons of carbon, we're about halfway to the first tipping point.

"The first tipping point is not far from today's climate conditions, so we're in danger of crossing it," said Dennis Höning, a climate scientist at the Potsdam Institute for Climate Impact Research who led the study. "Once we start sliding, we will fall off this cliff and cannot climb back up."

The study was published in the journal Geophysical Research Letters.

The Greenland Ice Sheet is already melting; between 2003 and 2016, it lost about 255 gigatons (billions of tons) of ice each year. Much of the melt to date has been in the southern part of the ice sheet. Air and , , precipitation and other factors all determine how quickly the ice sheet melts and where it loses ice.

The complexity of how those factors influence each other, along with the long timescales scientists need to consider for melting an ice sheet of this size, make it difficult to predict how the ice sheet will respond to different climate and carbon emissions scenarios.

Previous research identified of between 1 degree to 3 degrees Celsius (1.8 to 5.4 degrees Fahrenheit) as the threshold beyond which the Greenland Ice Sheet will melt irreversibly.

To more comprehensively model how the ice sheet's response to climate could evolve over time, Höning's new study for the first time used a complex model of the whole Earth system, which includes all the key climate feedback processes, paired with a model of ice sheet behavior. They first used simulations with constant temperatures to find equilibrium states of the ice sheet, or points where ice loss equaled ice gain. Then they ran a set of 20,000-year-long simulations with carbon emissions ranging from 0 to 4,000 gigatons of carbon.

From among those simulations, the researchers derived the 1,000-gigaton carbon tipping point for the melting of the southern portion of the ice sheet and the even more perilous 2,500-gigaton carbon tipping point for the disappearance of nearly the entire ice sheet.

As the ice sheet melts, its surface will be at ever-lower elevations, exposed to warmer air temperatures. Warmer air temperatures accelerate melt, making it drop and warm further. Global air temperatures have to remain elevated for hundreds of years or even longer for this to become effective; a quick blip of 2 degrees Celsius (3.6 degrees Fahrenheit) wouldn't trigger it, Höning said. But once the ice crosses the threshold, it would inevitably continue to melt. Even if were reduced to pre-industrial levels, it wouldn't be enough to allow the ice sheet to regrow substantially.

"We cannot continue at the same rate for much longer without risking crossing the tipping points," Höning said. "Most of the melting won't occur in the next decade, but it won't be too long before we will not be able to work against it anymore."

More information: Dennis Höning et al, Multistability and Transient Response of the Greenland Ice Sheet to Anthropogenic CO2 Emissions, Geophysical Research Letters (2023). DOI: 10.1029/2022GL101827

Journal information: Geophysical Research Letters

Citation: The Greenland Ice Sheet is close to a melting point of no return, says new study (2023, March 27) retrieved 16 June 2024 from
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