Arctic is warming at twice the rate of anywhere else on Earth
A new NOAA-led report shows that Arctic air temperatures continue to rise at more than twice the rate of global air temperatures, a phenomenon known as Arctic amplification. Increasing air and sea surface temperatures, declining reflectivity at the surface of the Greenland ice sheet, shrinking spring snow cover on land and summer ice on the ocean, and declining populations and health of some polar bear populations are among the observations released today in the Arctic Report Card 2014.
“Arctic warming is setting off changes that affect people and the environment in this fragile region, and has broader effects beyond the Arctic on global security, trade, and climate,” Craig McLean, acting assistant administrator for the NOAA Office of Oceanic and Atmospheric Research, said during a press conference today at the annual American Geophysical Union Fall Meeting in San Francisco. “This year’s Arctic Report Card shows the importance of international collaboration on long-term observing programs that can provide vital information to inform decisions by citizens, policymakers and industry.”
McLean joined other scientists to release the Arctic Report Card, an annual update provided since 2006, that summarizes changing conditions in the Arctic. Some 63 authors from 13 countries, United States and other nation’s federal agencies and academia contributed to the peer-reviewed report. This year’s report features updates on key indicators as well as a new report on the status of polar bears. Major findings of this year’s report include:
- Air temperatures: The jet stream pattern during early 2014 sent extreme cold air southward into eastern North America- and central Russia and extreme warm air northward into Alaska and northern Europe. Alaska recorded temperature anomalies more than 18 degrees Fahrenheit (10 degrees Celsius) higher than the January average.
- Snow cover: Snow cover across the Arctic during spring of 2014 was below the long-term mean of 1981-2010, with a new record low set in April for Eurasia and North America’s June snow extent the third lowest on record. Snow disappeared three to four weeks earlier than normal in western Russia, Scandinavia, the Canadian subarctic and western Alaska due to below average accumulation and above normal spring temperatures.
- Sea ice: The extent of sea ice in September 2014 was the sixth lowest since satellite observations began in 1979. The eight lowest sea ice extents since 1979 have occurred in the last eight years (2007-2014). At the time of maximum ice extent in March 2014, there had been a modest increase in ice thickness and age relative to the same time in 2013. Despite this, there is still much less of the oldest, thickest (greater than 13 feet or 4 meters) and most resilient ice than in 1988, when the oldest ice made up 26 percent of the ice pack compared to 10 percent this year.
- Arctic Ocean temperature: As sea ice retreats in summer, sea surface temperature (SST) in all the seas of the Arctic Ocean is increasing. The most significant linear trend is in the Chukchi Sea, northwest of Alaska, where SST is increasing at a rate of 0.9 degrees F (0.5 °C) per decade. In August 2014, in the Laptev Sea, north of Russia, and in the Bering Strait region, SST was as much as 7.2°F higher than the 1982-2010 average, while SST in the Barents Sea, north of Norway, was about 7.2°F lower than it was in 2013 but close to the 1982-2010 average.
- Greenland ice sheet: Melting occurred across almost 40 percent of the surface of the Greenland ice sheet in summer 2014; for 90 percent of the summer the extent of melting was above the long-term average for the period 1981-2010; and the number of days of melting in June and July exceeded the 1981–2010 average over most of the ice sheet. In August 2014, the reflectivity (albedo) of the ice sheet was the lowest observed since satellite observations began in 2000. When less of the sun’s energy is reflected by ice, melting increases. The total mass of the ice sheet remained essentially unchanged between 2013 and 2014.
- Arctic Ocean productivity: Declining sea ice is leading to an increase in sunlight reaching the upper layers of the ocean, setting off increased photosynthesis and greater production of phytoplankton, tiny marine plants which form the base of the food chain for fish and marine mammals. The timing of phytoplankton blooms throughout the Arctic Ocean is also being affected, with more frequent secondary blooms during the fall. In June, July and August 2014 the highest primary production – occurred in the Kara and Laptev seas north of Russia.
- Vegetation: On land, peak tundra greenness, a measure of vegetation productivity and biomass, continues to increase. Between 1982 and 2013, the tundra biomass has increased by 20 percent. However, tundra greenness integrated over the entire summer shows a browning trend occurring in Eurasia, where summer air temperatures have also been decreasing.
“The Arctic Report Card 2014 presents observations vital for documenting the state of the Arctic environmental system, understanding the complex interactions and feedbacks within the system, and predicting its future,” said Martin Jeffries, Ph.D., principal editor of the 2014 Report Card, and Arctic Science Advisor and Program Officer for Arctic and Global Prediction, Office of Naval Research. “Observing, understanding and predicting are essential elements of the Arctic Research Plan of the Inter-agency Arctic Research Policy Committee and the implementation of the U.S. National Strategy for the Arctic Region.”
A special essay in this year’s report card, written by the Norwegian Polar Institute and Polar Bears International, assesses polar bear populations in some areas where good long term data are available. The most recent data shows that a population decline in western Hudson Bay, Canada, was due to earlier sea ice break-up, later freeze-up and, thus, a shorter sea ice season. Polar bears depend on sea ice to travel, hunt, and mate, and in some areas, to den. Data shows that polar bear numbers had stabilized in the southern Beaufort Sea, after about a 40 percent decline since 2001. Polar bear condition and reproductive rates in the Chukchi Sea have been stable for 20 years, where sea ice is also declining though not as rapidly as in the southern Beaufort Sea.
In 2006, NOAA’s Climate Program Office introduced the State of the Arctic Report which established a baseline of conditions at the beginning of the 21st century. It is updated annually as the Arctic Report Card to document the often-quickly changing conditions in the Arctic. To view this year’s report, visit http://www.arctic.noaa.gov/reportcard/.
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