The new findings, published in the journal Nature, warn that the only way to avoid a drastically accelerated meltdown of the massive ice sheet in coming decades is for the global community to curtail emissions of greenhouse gases in the near-term.
Greenland is already the largest contributor to sea level rise, though Antarctica has the potential to increase sea levels even more. As sea levels creep upward, coastal storms including hurricanes and nor’easters become more destructive. Recent trends in more frequent “sunny day flooding” at high tide in places such as Annapolis, Md.; Norfolk; Charleston, S.C.; and Miami is also linked to sea level rise.
Researchers found that the current rate of mass loss from the Greenland ice sheet is already comparable to that seen at the end of the last ice age, during a geological period known as the early Holocene. At that time, the Arctic’s surface temperature was about 5.4 degrees Fahrenheit above the preindustrial average, a temperature the world is on track to exceed by the end of this century, depending on the rate of global emissions.
“It is no secret that the Greenland Ice Sheet is in rough shape and is losing ice at an increasing rate,” said Nicholas Young, a researcher at the Lamont-Doherty Earth Observatory (LDEO) at Columbia University, in a news release. “I think this is the first time that the current health of the Greenland Ice Sheet has been robustly placed into a long-term context.”
Young and colleagues were able to put together an unbroken history of the Greenland ice sheet’s mass change, relying on computer modeling and field research in southwestern Greenland.
The researchers’ projections show that after little change in ice mass loss over thousands of years, a sudden, precipitous uptick occurred in recent decades. This steep rise is projected to accelerate through 2100, if the world fails to drastically cut the greenhouse gas emissions fueling the globe’s warming.
If the entire Greenland Ice Sheet were to melt, scientists estimate that sea level would rise about 20 feet.
According to the study, the current mass loss rate of about 6,100 billion metric tons per century that occurred between 2000 and 2018 is comparable to rates in the early Holocene. But depending on greenhouse gas emissions in the next few decades, future mass loss will be far more devastating — on the order of 8,800 billion metric tons to 35,900 billion metric tons over the rest of the century.
“We’re basically committed to losing ice at a faster clip than we did at that last period of rapid loss 12,000 years ago," said Jason Briner, a geology professor at the University at Buffalo and lead author of the study, in an interview. "That was for me a surprising finding.”
For the research, scientists relied on analyzing clues to the ice sheet’s past movement by studying the chemical composition of boulders that sit on large piles of debris located at the former edge of a glacier or ice sheet, known as moraines. The analyses enabled the scientists to determine when the ice was located there and when it retreated from the boulders.
The scientists compared their computer modeling results with the field work results to determine the accuracy of their projections into the future.
An “aspect I like about this study is they really attempt to set present observed changes into a longer term context to show that at present we are much closer in terms of ice sheet melt to the Holocene thermal optimum than at any other period in the last 12,000 years,” said Ruth Mottram, a glaciologist at the Danish Meteorological Institute, in an email. Mottram was not involved in the new study.
Marco Tedesco, a researcher at LDEO and adjunct scientist at the NASA Goddard Institute for Space Studies, called Wednesday’s study “super interesting” but equally troubling.
“To my knowledge, it’s the first evidence that shows that we are reaching levels of mass loss that are comparable to what happened last time when things were, so to say, bad — meaning massive sea level rise,” he said of the study, in which he was not involved.
Tedesco, who recently published a book called “The Hidden Life of Ice: Dispatches from a Disappearing World,” said the latest research suggests that the rapid melting unfolding in Greenland might merely be a precursor to more devastating and far-reaching changes to come. For instance, the ripple effects of ice loss in the Arctic influence oceans currents and low-lying communities, and in time can affect melting on the other side of Earth in Antarctica.
While such fundamental changes might still take decades or generations to play out, he said that the transformation will have increasing affects in the present.
The new study’s projections are in line with findings from other recent research, which shows that Greenland is losing ice at an increasing rate. A study published last year in the Proceedings of the National Academy of Sciences, for example, showed that Greenland’s glaciers went from dumping about 51 billion tons of ice into the ocean between 1980 to 1990, to 286 billion tons between 2010 and 2018.
The result is that out of nearly 14 millimeters of sea level rise in total caused by Greenland since 1972, half of it has occurred in the past eight years, researchers found.
The Arctic is the fastest warming region on Earth, warming at about three times the rate of the rest of the planet.
By combining records from satellites, gravity measurements and other tools, scientists last year assembled a picture of the scale of Greenland’s ice loss over time. They found that from 1972 through 1990, Greenland was more or less in balance as it lost mass from glaciers that broke off or flowed out to sea, but also gained mass from annual snows. That pattern has come undone in the past 30 years.
Tedesco agreed that an unprecedented reduction in global emissions — along with aggressive investment in capturing and sequestering carbon dioxide that already is in the atmosphere — is the only opportunity to slow the rapid warming of the Arctic and the consequences that would bring.
“Imagine yourself with wide open arms in front of a tsunami and trying to stop it,” he said. “If we don’t stop what creates the tsunami, we can’t stop the freaking tsunami."
Correction: The original version of this story miswrote the current mass loss rate on the Greenland ice sheet as 6.1 billion metric tons per century, whereas it is actually 6,100 billion metric tons per century. Similarly, it miswrote the projected future mass loss of 8,800 billion metric tons to 35,900 billion metric tons as 8.8 billion metric tons to 35.9 billion metric tons.
An earlier version also misstated the global average surface temperature was up to 5.4 degrees above the preindustrial average in the early Holocene, when in fact that temperature anomaly was limited to the Arctic.