2008-04-10 Intercontential Dust Transport Guest Lecture
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Transcript of 2008-04-10 Intercontential Dust Transport Guest Lecture
Global Distribution and Transport of Air Pollution
Presented at
The Haagen-Smit Symposium:From Los Angeles to Global Air Pollution
Lake Arrowhead, April 9-12, 2001
Rudolf Husar
CAPITA, Washington University, St. Louis
Background
• Global-scale air pollution existed since…..• The difference is that now we can observe it!
• Outline of Presentation
• Major pollutant sources and emissions
• Observation-based global chemical climatology of major gases and aerosols
• Illustration of global-scale dust and smoke events
• Opportunities and challenges of the the 21st century
Industrial Sulfur Emission Density
The regional hot-spots for industrial sulfur emissions are in E. North America,Europe andE. Asia
Long Term Trends
• North America: roughly constant for the past century
• Europe: Rise after WW II but leveled off since 1990
• East Asia: Sharp rise since the 1960s.
Regional hot-spots for industrial sulfur emissionsEastern North America,
Europe
East Asia
Continental Surface Visibility (Human Observers)
NOAA NCDC Global Summary of the Day (SOD) 7000 Observations
Low Visibility High Visibility
Extinction coefficient (visibility) for SE Asia
The most intense and persistent regional haze is over India
During 1997 biomass fires in Indonesia caused unusually intense haze
Sep, Oct, Nov Dec, Jan, Feb
The haze over N. America is modest compared to hazy regions of Africa, E. Asia and S. America
Extinction coefficient (visibility) for N. America
Jun, Jul, AugDec, Jan, Feb
Haze over ChinaSeaWiFS
• Industrial haze covers most of Eastern China
• Haze is confined to low-lying areas and valleys
The Asian Dust Event of April 1998
On April 19, 1998 a major dust storm occurred over the Gobi Desert
The dust cloud was seen through SeaWiFS, TOMS, GMS, AVHRR satellites
The dust transport was followed on-line by an an ad-hoc international group
China
Mongolia
Korea
SeaWiFS/TOMS data for April 21 shows dust transport to the Pacific
Japan
Trans-Pacific Dust Transport
The dust cloud traversed the Pacific in 6 days at about 4 km altitude
As the dust approached N. America, it subsided to the ground
Asian Dust Cloud over N. America
On April 27, the dust cloud rolled into North America.
The regional average PM10 increased to 65 g/m3
In Washington State, PM10 exceeded 100 g/m3
Reg. Avg. PM10
100 g/m3
Hourly PM10
Fine Particle Dust Concentrations (IMPROVE)
April 25, 1998 April 29, 1998 May 2, 1998
On April 25, the western U.S. was virtually dust-free.
Highest concentration was an April 29.
On May 2, the high levels moved (?) to the Colorado Plateau.
Summary of Global Air Pollution and Transport• The global sulfur emissions have shifted from N. America and Europe to East
Asia.
• The industrial ‘belt’, 30-60 deg N, is dominated by anthropogenic SOx, NOx and O3. This conforms to the conventional wisdom since the 1970s.
• Recent satellite data show that NOx, HC and aerosols are dominated by biomass burning in the subtropics and the southern hemisphere. ??
• The radiatively active global aerosol is dominated by smoke and dust, rather then by industrial sulfates as we have presumed.
• Episodic trans-continental transport of dust and smoke (ozone?) can now be detected and modeled routinely.
• Such extra-jurisdictional ‘pollution’ events cause significant episodic impact on the air quality of N. America.