Summer’s coming, which means that soon enough, it’ll be time to tuck the glacier in.
This year, like every year, a group of Swiss will traipse up through the mountains to the Rhone Glacier, hauling huge white blankets. As E&E News reported in a recent article on geoengineering, the annual hike is part of a doomed effort to protect the massive blocks of ice from the rising summer heat.
Earth is getting warmer, and glaciers around the world are retreating and shrinking. As previously reported, humans appear to have caused 69 percent of glacial melting between 1991 and 2010 — and warming has only accelerated since then.
In the Rhone region, that shrinking represents an economic emergency as well as an environmental one.
The ice mass, which 11,500 years ago covered a large chunk of Switzerland, is a significant tourist attraction; Agence France-Presse reported in 2015 that an “ice grotto” has been carved into the ice every year since 1870 for visitors to walk through, a tradition that is threatened by the shrinking ice. The glacier has retreated 4,600 feet since 1856.
The blankets, their white color chosen to reflect light before it strikes the ice, may slow the glacier’s decline. But they won’t stop it. Glaciologist David Volken told Agence France-Presse that the glacier still loses three to five inches on a hot day.
Nonetheless, this idea and others like it are becoming increasingly popular, as it grows clearer that the world will blow through the temperature-rise target that policymakers have set for limiting the worst effects of climate change. If the world’s glaciers do collapse entirely, the potential for raising global sea levels is enormous, according to research published in 2013 in the journal Science.
As Oceans Deeply reported, scientists at the December 2017 meeting of the American Geophysical Union seriously considered proposals such as spreading giant sheets of reflective material on top of landlocked polar ice, building huge mounds on the seafloor to keep warm water away from melting glaciers, and pumping huge amounts of ocean water on top of sea ice in the summer to add to its mass.
All these ideas and more are available to read as part of an ongoing E&E series on geoengineering.