North America’s Glaciers Are Melting Four Times Faster Than They Were a Decade Ago

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Photo: Richard Droker (Flickr)

Across the world’s icy landscapes, climate change is spurring a major meltdown. That includes the western U.S. and Canada where not only is ice vanishing, but it’s doing so at a more rapid pace than it was just a decade ago, according to a new study released this week in Geophysical Research Letters.


The faster melt can be partial attributed to a shift in weather patterns over the past years, which has worked in concert with rising temperatures to speed along ice’s demise.

The glaciers of North America are remnants of the Ice Age. They cling to high peaks from British Columbia to Montana where snow replenishes them each winter and temperatures have been cool enough to keep them more or less at equilibrium for centuries. But now humans have thrown that equation out of whack, pouring carbon dioxide and other greenhouse gases into the atmosphere. The result has been the death of ice.

There are ice monitoring stations to measure what’s going on scattered across the West, but the new research uses satellites to see how much ice has changed. By detecting minute elevation changes from year-to-year from 2000-18, scientists were able to paint a comprehensive picture of ice in decline. Brian Menounos, a glacier researcher from the University of Northern British Columbia, told Earther the research could “improve modeling efforts for the fate of western North American glaciers in the decades ahead.”

More than 80 percent of glaciers showed a loss in elevation, indicating they’re losing ice faster than snow can replenish what’s melting away. Northern parts of British Columbia’s interior saw the most dramatic thinning.

From 2000-09, western North America lost an average of 2.9 gigatons of ice annually or roughly 1.16 million Olympic swimming pools. But from 2009-18, ice loss quadrupled to 12.3 gigatons annually. Researchers attribute some of that shift in weather patterns with warmer, drier weather befalling the British Columbia’s Southern Coast Mountains, which are home to half of the study area’s ice.

“We still don’t know what the origin of the jet stream shift was,” Menounos said. “It may be natural variability or it also be a manifestation of human-caused climate change. More work is needed on that topic.”


But the ice loss wouldn’t be possible with rising background temperatures. This all matters to lowlanders. Put aside the fact that some of the most beautiful landscapes on the continent and the plants and animals that call them home are being ravaged by climate change. These glaciers also store a huge amount of water used for crops and drinking, while provide economic boons by drawing hikers and skiers from afar. Their disappearance threatens to drastically change entire economies, which is part of what makes climate projections showing places like Glacier National Park could be ice-free by the 2030s so worrisome.

This new study only adds to those concerns.



Dense Non Aqueous Phase Liquid

Fugging greenie treehugging Obama loving Merica hating libtard “scientists” and their stupid latent heat of fusion.

Here’s a nice explainer on how ice kept global warming (per surface temperature measurement) somewhat in check for a short period of time recently and why having less and less ice ain’t good. Like really fucking bad.

Also from those “geophysics” dudettes/dudes:

Slowdown of global surface air temperature increase and acceleration of ice melting

Now this is how I like my science writing (from the paper above):

Plain Language Summary

Although the last decade is the warmest decade in the instrumental record and CO2 continues to rise, global surface air temperature has not increased as much as before over the last 10–15 years, leading to the so‐called hiatus or slowdown of the global warming. This is a key event which has still not received any definitive explanation, although many possible causes have already been adduced. Here we take into account the almost simultaneous phenomena which arose at the beginning of the 21st century: acceleration in the disappearance of the summer arctic sea ice, increase of the rate of ice sheets and glacier melting and of seal‐level rise, and the appearance of a decrease of the warming trend of the atmosphere. Our calculations based on three climate records show that the energy left in the atmosphere by the slowdown of the global warming is pretty similar to the energy requested to melt the ice over the same period. While the heat content of the atmosphere alone shows a leveling off after 2002, no such behavior is observed when the heat of ice melting is added, suggesting a redistribution of heat within the atmosphere–cryosphere system.