Air temperatures in the Arctic are driving system change

April 7, 2019

�鶹ԭ��F photo by Todd Paris. Peaks of the southern Brooks Range along a stretch of the Dalton Highway, about 250 miles north of Fairbanks.

A new paper shows that air temperature is the “smoking gun” behind climate change in the Arctic, according to John Walsh, chief scientist for the �鶹ԭ�� Fairbanks International Arctic Research Center.

Several �鶹ԭ��F researchers are co-authors on the paper, which says that “increasing air temperatures and precipitation are drivers of major changes in various components of the Arctic system.”

Jason Box of the Geological Survey of Denmark and Greenland in Copenhagen is lead author of the paper. "The Arctic system is trending away from its 20^th century state and into an unprecedented state, with implications not only within but beyond the Arctic," he said.

The study is the first to combine observations of physical climate indicators, such as snow cover, with biological impacts, such as a mismatch in the timing of flowers blooming and pollinators working.

Climate indicators are key pieces of information that capture the essence of a system, according to Walsh. An example would be September sea ice extent, which summarizes the effects of things like temperature, winds, ocean heat and other variables.

�鶹ԭ��F photo by Todd Paris. The Yukon River winds through western Interior Alaska in early April.

“I didn’t expect the tie-in with temperature to be as strong as it was," Walsh said. "All the variables are connected with temperature. All components of the Arctic system are involved in this change.

“Never have so many Arctic indicators been brought together in a single paper,” he said.

The authors correlated records of observations of nine key indicators from 1971 to 2017: air temperature, permafrost, hydroclimatology, snow cover, sea ice, land ice, wildfires, tundra and terrestrial ecosystems, and carbon cycling. All the indicators correlate with rising temperatures, pointing to a warming climate and a fundamental change in the Arctic.

“Because the Arctic atmosphere is warming faster than the rest of the world, weather patterns across Europe, North America and Asia are becoming more persistent, leading to extreme weather conditions," Box said. "Another example is the disruption of the ocean circulation that can further destabilize climate: for example, cooling across northwestern Europe and strengthening of storms.”

The paper is the flagship piece in a special issue on Arctic climate change indicators published by the journal Environmental Research Letters. IARC’s Igor Polyakov is lead editor for this special issue, which has other papers co-authored by �鶹ԭ��F scientists. In addition to Walsh, the authors include the �鶹ԭ��F Geophysical Institute’s Uma Bhatt and Vladimir Romanovsky, and Eugénie Euskirchen of the �鶹ԭ��F Institute of Arctic Biology, along with many international colleagues.

The authors of the study hope that these indicator-based observations provide a foundation for a more integrated understanding of the Arctic and its role in the dynamics of the Earth’s biogeophysical systems.

ON THE WEB: The paper is available online at

NOTE TO EDITORS: Video available at . Photos are available for download from .

ADDITIONAL CONTACTS: John Walsh, 907-474-2677, jewalsh@alaska.edu. Uma Bhatt, 907-474-2662, usbhatt@alaska.edu. Eugenie Euskirchen, 907-474-1958, seeuskirchen@alaska.edu. Vladimir Romanovsky, veromanovsky@alaska.edu. Jason Box (lead author), +45 60 12 41 57, jeb@geus.dk