By University of Colorado at Boulder

Scientists have known from ice core research that it’s easier to melt an ice sheet than to freeze it up again. Now, they know at least part of the reason why, and it has to do with ice’s “sponginess,” according to a new study published in The Cryosphere.

The study uses a physics-based numerical model to assess the impacts of warming and cooling on firn, the porous layer between snow and glacial ice, over the entire Greenland Ice Sheet. Megan Thompson-Munson, a CIRES and ATOC PhD student, led the study alongside her advisors: CIRES Fellow Jen Kay and INSTAAR Fellow Brad Markle.

“The amount of change that occurs within the firn layer due to warming and cooling is not equal in magnitude,” Megan Thompson-Munson said. “If we look at thousands or millions of years, we see asymmetric ice sheet behavior overall: Ice sheets can melt away quickly, but take a long time to grow. This firn asymmetry we identify is a small piece of that puzzle.”

Firn covers about 90 percent of the Greenland Ice Sheet, located at higher elevations where, along with snow, it covers hundreds of meters of ice and acts as a buffer against sea level rise — making it integral to preserving Arctic glaciers in a warming climate. Firn is porous and spongy, which allows water to pass through on its way to the solid ice layer below, where it can refreeze, adding to the existing ice sheet instead of flowing to the ocean.

Animation: Understanding glacial firn (Credit: Vuk Nikolic) Courtesy of NASA’s Scientific Visualization Studio * This animation shows how the characteristics of the ice sheet surface control the pathways of meltwater. When melt occurs on bare ice, the water will runoff towards the ocean. If instead the surface is covered in a thick layer of firn, meltwater can percolate into the spongy surface. (Source: CIRESvideos)

In this study, researchers found warming temperatures are rapidly changing how efficiently firn can store meltwater, and cooling temperatures may not help it fully recover as much as scientists might have hoped.

“The warming depletes what we call the ‘firn air content’ or the ‘sponginess,” Thompson-Munson said. “So you lose more of the sponginess due to warming than can be regained due to cooling. And it’s important because this porous firn can buffer the ice sheet’s sea level rise contribution.”

To understand how firn responds to both warming and cooling temperatures, the team used a physics-based computer model called SNOWPACK, and honed in on one variable: temperature.

The study is the first of its kind in two ways. First, researchers looked at the impacts of both warming and cooling temperatures on Greenland firn. Second, the scope of the research covered the entire ice sheet, while previous studies focused on smaller geographical areas.

“The Greenland ice sheet loses mass faster under warming than it gains mass under cooling,” Kay said. “The key advance of this study is that Greenland’s firn contributes to this greater warming-than-cooling asymmetric response.”

Thompson-Munson said the study brings up an important question regarding geoengineering and the ability to reverse our Earth’s warming. Any geoengineering concepts designed to decrease temperatures in the Arctic might not preserve ice and snow as efficiently as imagined; the degree of cooling will have to exceed the degree of warming to help firn and glaciers return to normal.

“To get back to initial conditions, we’d have to cool a lot more or start changing other variables as well,” Thompson-Munson said. “It’s hard to reverse what we’ve already done.”

More information: Megan Thompson-Munson, Jennifer E. Kay and Bradley R. Markle, ‘Greenland’s firn responds more to warming than to cooling’, The Cryosphere (2024); DOI: 10.5194/tc-18-3333-2024 | CU Boulder Press Release/Material. Featured image: Icebergs in the Ilulissat Icefjord, Greenland Credit: Megan Thompson-Munson | CIRES | CC BY 4.0

Cacao plantation - Tree crops such as these offer important sources of income for local people and can - with sustainable strategies - protect biodiversity
Tree crops as a key to biodiversity, climate, and sustainable agricultureClimate

Tree crops as a key to biodiversity, climate, and sustainable agriculture

In Brief: Tree crops, including apple, olive, coffee, and cacao, span over 183 million hectares worldwide but remain undervalued in agricultural policies despite their significant…
Muser NewsDeskMuser NewsDeskJanuary 15, 2025 Full article
Image: China, Yangtze, Sunrise
Record heat and extreme weather hit China’s Three Gorges region in 2024Climate

Record heat and extreme weather hit China’s Three Gorges region in 2024

The Three Gorges region of the Yangtze River hits record high temperatures in 2024 Summary: China’s Three Gorges region experienced record-breaking heat and a series…
SourceSourceJuly 8, 2025 Full article
Image: Wildfire (s. forest, fire, climate)
Exposure to Climate Events and Mental Health: Insights from the California Health Interview SurveyClimate

Exposure to Climate Events and Mental Health: Insights from the California Health Interview Survey

The link between climate change and mental health has become increasingly apparent, with more than one in five Californians affected by climate events reporting negative…
Adrian AlexandreAdrian AlexandreAugust 3, 2024 Full article