Fieldwork for the study took place at the International Tundra Experiment at Toolik Lake in Alaska, an experiment started in 1994 by study co-lead author Jeff Welker of the University of Alaska. The original goal of the experiment, Welker explained, was to understand how deeper snow would affect Arctic tundra ecosystems.
"These findings suggest that the stability of permafrost in Arctic Alaska, and possibly globally, can respond rather rapidly to changes in Arctic winter snow conditions, where winter can be up to eight months long," said Welker."Winter climate feedbacks like this are a tundra characteristic not previously recognized and fully appreciated."
"We weren't sure if we would be able to see permafrost carbon emissions in the field," said Czimczik."However, we can even see the ancient carbon emissions during the summer," when carbon emissions from plants should be dominant. "Having an experiment in place for nearly 30 years, especially one that focuses on winter conditions, is such a rarity in the Arctic," said Jespersen."That timeframe has given us a unique window into one possibility for the future Arctic, and it's been sobering to witness and document the cascade of ecosystem changes that have all resulted from simply having more snow on the ground.