FAIRBANKS - Mike Cubison has been flying around in a haze for three weeks, by choice.
The University of Colorado postdoctoral student grabs air samples over Alaska skies, and using a mass spectrometer, measures floating particles of pollution before obliterating them into their constituent parts to determine what they're made of.
Further back in the DC-8 commercial airliner that's been converted by NASA into a flying laboratory, atmospheric chemist Nicola Blake of the University of California, Irvine, captures air samples that will be analyzed for more than 50 chemicals to identify what part of the globe has contributed to the Arctic haze.
Cubison, Blake and about 275 scientists and support staff are trying to solve a mystery: What's making the Arctic warmer than climate models say it should be.
Greenhouse gases such as carbon dioxide have been the focus of climate change. Scientists amassed at Fairbanks and Barrow are focusing on another suspect: tiny floating particles known as aerosols.
Their air samples turn up dust from Asians deserts, salts that swell up with moisture, particles from incomplete burning of organic material from forest and cooking fires and all manner of nasties emitted by automobile exhaust pipes, factory smokestacks and power plants.
Collectively, they're a United Nations of pollution. Through chemical analysis, the particles can be traced to sources throughout Asia, Europe and North America.
"The Arctic is a melting pot for mid-latitude pollution," said Harvard's Daniel Jacob, co-project scientist for NASA, which will spend $24 million on the mission over three years. "We have signatures of just about everything you can imagine flying around in the Arctic."
The particles change as they move, sometimes reacting with chemicals in the atmosphere as they age, sometimes growing or changing color.
The scientists are building on the work of a University of Alaska Fairbanks atmospheric scientist who arrived 35 years ago after finishing his dissertation at the University of Arizona. Glenn Shaw took a photometer to Barrow, America's northernmost community, figuring he could measure the clearest skies on the globe and perhaps get a mention in a scientific journal.
"I was expecting to set a record," he said, "because at the northern tip of Alaska, there's no industry, and the idea was, that this must be the cleanest place, essentially, almost, on planet Earth."
He was wrong. Shaw detected a phenomenon later dubbed Arctic Haze that indicated the skies above Barrow and all the way to the North Pole turned into a giant lint trap in late winter and early spring.
"The important thing was, and is, this is aerosol material that is traveling over three or four thousand miles, which was unprecedented at the time," he said.
The focus on greenhouse gases has made it difficult to bring other agents of climate change into the discussion, Jacob said. But the shortcomings in climate models, which did not foresee last summer's startling record sea ice melt-off, and the International Polar Year effort, a scientific program focused on the Arctic and Antarctic every 50 years or so, made the case for the research blitz now under way by NASA, the National Oceanic Atmospheric Administration and the Department of Energy.
NASA will be back to the Arctic in July for more flights to study the effects of forest fire smoke and the associated chemistry, said Jim Crawford, the agency's tropospheric chemistry program manager.
"We're really trying to understand the difference between the relative importance of these two very large and dramatic influxes of pollution to the Arctic," Crawford said.
If aerosol particles prove to be a major factor in warming, Ravishankara said, there could be a relatively fast benefit to removing them.
"It lasts only for a few days, and then it's removed from the atmosphere, unlike carbon dioxide, which stays with us for hundreds of years," he said. "Aerosols can be a way to do something very quickly."
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