Publication Date:
2022-05-27
Description:
© The Author(s), 2021. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Scambos, T., Straneo, F., & Tedesco, M. How fast is the Greenland ice sheet melting? Arctic Antarctic and Alpine Research, 53(1), (2021): 221–222, https://doi.org/10.1080/15230430.2021.1946241.
Description:
THE ISSUE
The Greenland Ice Sheet and the glacier-covered areas of Alaska and other Arctic lands are losing ice at an accelerating rate, contributing billions of tons of water to sea level rise.
WHY IT MATTERS
Ice loss from the ice sheets contributes directly to sea level rise. These losses are likely to increase rapidly as warming in the Arctic continues. Surface melt and runoff is now increasing more quickly than all other factors driving Greenland’s ice loss, although faster glacier outflow remains important. Increased ice loss from Alaska’s glaciers is also due mainly to surface melting. Given these trends, and the rapid warming in the Arctic (twice the global rate of warming), the Arctic is poised to lose ice even more rapidly and raise sea level.
STATE OF KNOWLEDGE
Since 2000, the net loss of ice from the Greenland Ice Sheet has increased five-fold, from 50 billion to about 250 billion tons per year1,2 (362 billion tons is equal to 1 mm in sea level rise). Ice losses in the Gulf of Alaska region have risen from about 40 to 70 billion tons per year3. These trends are confirmed by three independent satellite methods, using gravitational changes, elevation changes, and changes in the mass budget (the net difference between snowfall and the combination of glacier outflow and runoff)1. In total, the Arctic currently contributes approximately 350 billion tons (~1 mm) to sea level each year, primarily from Greenland, Alaska, and Arctic Canada. Recent measurements of the rate of sea level rise are 3.0 mm per year, with the additional rise coming from other glaciers and Antarctica (~0.4. mm) and expansion of the oceans due to warming (~1.7 mm)4. Slightly cooler summer seasons for Greenland in 2013 and 2014, and again in 2017 and 2018, temporarily reduced the rate of ice loss. Ocean temperatures cooled in some places along the western Greenland coast, slowing glacier outflow there5. However, strong melting in 2015, 2016 and 2019 again contributed large amounts of runoff to the ocean2. Because surface melt is closely tied to seasonal weather conditions, it is more variable than ice loss due to increased glacier outflow. Despite this variability, the overall warming trend of Arctic air and ocean has driven greatly increased melting and ice loss in Greenland and Alaska in the past two decades. As spring and summer temperatures have increased, net runoff of meltwater has grown dramatically (Figure 1). Ice loss due to faster glacier flow has remained stable overall and is unlikely to accelerate as rapidly as melting. Current increases in surface melt runoff rate are about twice that of ice loss due to increased ice flow speed1. As intense summer melt seasons like 2012, 2016, and 2019 become more common, further increases in melt runoff are inevitable.
Description:
This work was supported by the Office of Polar Programs, National Science Foundation, and NSF’s Study of Environmental Arctic Change.
Repository Name:
Woods Hole Open Access Server
Type:
Article
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