Arctic haze

Long-range pollution pathways to the Arctic

Arctic haze is the phenomenon of a visible reddish-brown springtime haze in the atmosphere at high latitudes in the Arctic due to anthropogenic air pollution. A major distinguishing factor of Arctic haze is the ability of its chemical ingredients to persist in the atmosphere for an extended period of time compared to other pollutants. Due to limited amounts of snow, rain, or turbulent air to displace pollutants from the polar air mass in spring, Arctic haze can linger for more than a month in the northern atmosphere.

[edit] History of Arctic haze

Arctic haze was first noticed in 1750 when the Industrial Revolution began. Explorers and whalers could not figure out where the foggy layer was coming from. "Poo-jok" was the term the Inuit used for it.^[1] Another hint towards clarifying this issue was relayed in notes by Norwegian explorer Fridtjof Nansen. After trekking through the Arctic he found dark stains on the ice. This was about a century ago.^[2] The term "Arctic haze" was coined in 1956 by J. Murray Mitchell, a U.S. Air Force officer stationed in Alaska,^[3] to describe an unusual reduction in visibility observed by North American weather reconnaissance planes. From his investigations, Mitchell thought the haze had come from industrial areas in Europe and China. He went on to become an eminent climatologist.^[4] When an aircraft is within a layer of Arctic haze, pilots report that horizontal visibility can drop to one tenth that of normally clear sky. At this time it was unknown whether the haze was natural or was formed by pollutants, so no further research was done in the next 18 years.^{[citation needed]}

The haze is seasonal, reaching a peak in late winter and spring. In 1972 Dr. Glenn Shaw of the Geophysical Institute at the University of Alaska attributed this smog to transboundary anthropogenic pollution, whereby the Arctic is the recipient of contaminants whose sources are thousands of miles away. Further research continues with the aim of understanding the impact of this pollution on global warming.^[5]

The pollutants are commonly thought to originate from coal-burning in northern mid-latitudes, especially in Asia. The aerosols contain about 90% sulfur and the rest is carbon, which makes the haze reddish in color. This pollution is helping the Arctic warm up faster than any other region, although increases in greenhouse gases are the main driver of this climatic change.^[6]

Sulfur aerosols in the atmosphere affect cloud formation, leading to localized cooling effects over industrialized regions due to increased reflection of sunlight. During the Arctic winter, however, there is no sunlight to reflect. In the absence of this cooling effect, the dominant effect of changes to Arctic clouds is an increased trapping of infrared radiation from the surface.

[edit] Origin of pollutants

Ship emissions, the smoke from forest fires, mercury, aluminium, vanadium, manganese, and aerosol and ozone pollutants are many examples of the pollution that is affecting this atmosphere. Some of those pollutants are indications of coal burning. Carbon dioxide from factories and cars also contribute to the pollution that warms the Arctic a couple of degrees during the so-called "episodes".^[7] Different pollutants actually represent different colors of haze. Dr. Shaw discovered, in 1976, that the yellowish haze is from dust storms in China and Mongolia. The particles were carried by unusual air currents. The trapped particles were dark gray the next year he took a sample. That was caused by a heavy amount of industrial pollutants.^[2]

[edit] Recent studies

According to Tim Garrett, an assistant professor of meteorology at the University of Utah involved in the study of Arctic haze at the university, mid-latitude cities contribute pollution to the Arctic, and it mixes with thin clouds, allowing them to trap heat more easily. Garret's study found that during the dark Arctic winter, when there is no precipitation to wash out pollution, the effects are strongest, because pollutants can warm the environment up to three degrees Fahrenheit.^[8]

[edit] Scientific predictions

European climatologists predict that by the end of the 21st century, the temperature of the Arctic region is expected to rise 3° Celsius on an average day^{[citation needed]}. In the same article, National Geographic quoted the co-author of the study, Andreas Stohl, of the Norwegian Institute for Air Research, "Previous climate models have suggested that the Arctic's summer sea ice may completely disappear by 2040 if warming continues unabated."

[edit] See also

	Global warming portal
	Ecology portal
	Environment portal

• Bioamplification
• Global distillation
• Ozone depletion
• Convention on Long-Range Transboundary Air Pollution
• Stockholm Convention on Persistent Organic Pollutants
• Montreal Protocol
• Kyoto Protocol

[edit] Footnotes

[edit] References

• Connelly, Joel. Pictures of Arctic are Hard to Argue With. 13 November 2006. Seattle Post-Intelligencer.
• Rozell, Ned. Arctic Haze: An Uninvited Spring Guest. 2 April 1996. Geographical Institute, University of Alaska Fairbanks.

1 May 2007 Arctic Haze

• Study: The Haze is Heating Up the Arctic. 10 May 2006. United Press International.
• Garrett, Tim. Pollutant Haze is Heating up the Arctic. 10 May 2006. Earth Observatory. Earth Observatory News
• Contaminating the Arctic. 01 January 1999. Scholastic.
• Gorrie, Peter. Grim prognosis for Earth. 03 January 2007. Toronto Star.

[edit] External links

• What is Arctic Haze?
• Arctic Haze
• Earth Observatory News
• Arctic Pollution: Contaminating the Arctic (Scholastic)