Extreme Greenland ice melt raised global flood risk: study

UNSPECIFIED, GREENLAND – SEPTEMBER 07: Icebergs and light snowfall are seen from NASA’s Oceans Melting Greenland (OMG) research aircraft near the west coast on September 7, 2021 above Greenland. The NASA Oceans Melting Greenland (OMG) campaign is wrapping up a six-year mission studying the ocean and glaciers along Greenland’s 24,000 mile remote coastline with airborne and shipborne instruments- data which cannot be captured by satellite. Each summer, OMG releases around 250 ocean probes from a modified DC-3 aircraft into the ocean to monitor the temperature and salinity of Atlantic subsurface waters around Greenland. According to NASA, the goal of the mission is ‘to figure out how much of Greenland’s ice melt is caused by warming oceans.’ Greenland’s massive ice sheet holds enough water to raise sea levels by around 25 feet worldwide. (Photo by MARIO TAMA / GETTY IMAGES NORTH AMERICA / Getty Images via AFP)

by Patrick GALEY
Agence France-Presse

PARIS, France (AFP) – The 3.5 trillion tonnes of Greenland’s ice sheet that has melted over the past decade has raised global sea levels by one centimetre and is heightening worldwide flood risks, new research showed on Monday.

The ice sheet atop the world’s largest island contains enough frozen water to lift oceans some six metres (20 feet) globally, and extreme melting events there have been increasing in frequency for at least 40 years.

Although it is one of the most studied places on Earth by climatologists, Monday’s research is the first to use satellite data to detect Greenland ice sheet runoff.

Writing in the journal Nature Communications, researchers said that Greenland’s meltwater runoff had risen by 21 percent over the past four decades.

Screenshot from Nature Communication article “Increased variability in Greenland Ice Sheet runoff from satellite observations” (https://doi.org/10.1038/s41467-021-26229-4)

More strikingly, the data provided by the European Space Agency showed that the ice sheet had lost 3.5 trillion tonnes of ice since 2011, producing enough water to raise oceans globally and put coastal communities at higher risk of flood events.

One-third of the ice lost in the past decade came in just two hot summers — 2012 and 2019 — the research showed.

The images showed significant annual variation in ice melt and, combined with temperature data, showed that heatwaves were increasingly a major cause of ice loss — above and beyond global temperature rises.

In 2012, for example, when changes in atmospheric patterns caused unusually warm air to hover over the ice sheet for weeks, 527 billion tonnes of ice was lost.

“As we’ve seen with other parts of the world, Greenland is also vulnerable to an increase in extreme weather events,” said Thomas Slater, from the University of Leeds Centre for Polar Observation and Modelling and lead author.

“As our climate warms, it’s reasonable to expect that the instances of extreme melting in Greenland will happen more often.”

Screenshot from Nature Communication article “Increased variability in Greenland Ice Sheet runoff from satellite observations” (https://doi.org/10.1038/s41467-021-26229-4)

Predicting how much Greenland’s melt will contribute to rising sea levels is notoriously tricky for scientists who also need to factor in the potential rise caused by other land-based glacier melt.

And, as oceans warm, water expands, and also contributes to higher seas.

Monday’s authors said that the satellite data had allowed them to quickly and accurately estimate how much ice Greenland had lost in a given year, and convert that into sea-level rise equivalent.

“Model estimates suggest that the Greenland ice sheet will contribute between 3-23 cm to global sea-level rise by 2100,” said co-author Amber Leeson, senior lecturer in Environmental Data Science at Britain’s Lancaster University.

“These new spaceborne estimates of runoff will help us to understand complex ice melt processes better… and just enable us to refine our estimates of future sea-level rise.”

Related Post

This website uses cookies.