Climate Engineering Could Slow Antarctic Ice Loss, Study Shows

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Scattering sunlight-reflecting particles in the atmosphere could slow rapid melting in West Antarctica and reduce the risk of catastrophic sea-level rise, according to a study led by Indiana University researchers.

Scattering sunlight-reflecting particles in the atmosphere could slow rapid melting in West Antarctica and reduce the risk of catastrophic sea-level rise, according to a study led by Indiana University researchers.

The study, one of the first to look at how climate engineering might impact Antarctica, comes as scientists sound the alarm over the increasing likelihood of accelerated ice loss in West Antarctica this century. The work appears in the Journal of Geophysical Research: Atmospheres.

“Even if the world meets the ambitious target of limiting global warming to 1.5 degrees Celsius above pre-industrial levels — which we are not on track to do — we are going to see significant sea-level rise,” said Paul Goddard, an assistant research scientist in the IU College of Arts and Sciences’ Department of Earth and Atmospheric Sciences and the lead author of the study. “Exploring ways to reflect sunlight into space before it is absorbed into Earth’s climate system could help buy us more time to address climate change and avoid or delay climate tipping points, such as collapse of the West Antarctic Ice Sheet.”

Read more at: Indiana University

Paul Goddard. (Photo Credit Indiana University)