Arctic sea ice extent fell to the lowest level observed during the month of December since the beginning of satellite monitoring in 1979, the U.S. National Snow and Ice Data Center (NSIDC) announced today.
While sea ice has been declining for the past few decades as Arctic air and water temperatures have warmed, NSIDC scientists say an additional contributor is an unusual weather pattern that has kept parts of the Arctic unusually warm, while simultaneously driving cold air and snowstorms into parts of the U.S. and Europe.
According to an NSIDC , sea ice extent averaged 4.63 million square miles during the month of December, which was 104,000 square miles below the previous record low of 4.74 million square miles set in 2006 — a difference equal to about the size of the state of Colorado.
Compared to the longer-term average for the month, sea ice extent was down by 521,000 square miles.
Although ice extent was below average in both the Atlantic and Pacific sides of the Arctic, the greatest ice loss compared to average occurred in Hudson Bay, Hudson Strait, and Davis Strait. Typically, large portions of these areas are frozen over by late November, says NSIDC director and senior scientist . Instead, he says, residents of in the Canadian Arctic are to the sea ice cover this year, since little has formed there yet.
Temperatures across Baffin Bay, Davis Strait, and Hudson Bay were at least 11°F above average, the NSIDC reports . Southern Baffin Island stood out the most, with temperatures more than 18°F above average.
Temperatures were colder than average across north-central Eurasia and Scandinavia, however. NSIDC scientists point to two factors for the warmer than average conditions — open water left over from last summer's sea ice melt season, which slows ice growth, and an unusual weather pattern that stuck around for much of the month.
The atmospheric circulation in question is the same weather pattern that contributed to the post-Christmas blizzard in the northeastern U.S., and the extreme cold and snow that gripped much of Europe during December.
Known as the , this pattern is a large-scale variation in surface air pressure between the Arctic and the mid-latitudes. When the Arctic Oscillation is in a strongly negative mode, which has been the case recently, air pressures are higher than average in the Arctic and lower than average in the mid-latitudes. This sets up opposing temperature patterns, with a greater likelihood that cold air will spill out of the Arctic and into North America and Europe.
Scientists refer to weather patterns featuring an abnormally mild Arctic and an unusually cold U.S. and Europe as the "Warm Arctic/Cold Continents Pattern" or an "Arctic Paradox," and it is the subject of ongoing research.
The Arctic Oscillation is closely related to the or NAO, which concerns surface air pressure variability over the North Atlantic Ocean, and also affects winter weather conditions in the eastern U.S. and Europe. "The NAO is really the Arctic Oscillation’s little brother," Serreze says.
A negative Arctic Oscillation used to be associated with greater than average Arctic sea ice cover, because the winds associated with it reduce the flow of sea ice out of the Arctic. However, this may be changing. Indeed, during the 2009-10 winter, the Arctic Oscillation was also strongly negative, and more sea ice was retained in the Arctic than in previous years, but much of that retained ice soon melted.