Journal
ATMOSPHERIC CHEMISTRY AND PHYSICS
Volume 8, Issue 23, Pages 7075-7086Publisher
COPERNICUS GESELLSCHAFT MBH
DOI: 10.5194/acp-8-7075-2008
Keywords
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Funding
- Electric Power Research Institute (EPRI)
- EPA-STAR
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We show that the frequency of summertime mid-latitude cyclones tracking across eastern North America at 40 degrees - 50 degrees N (the southern climatological storm track) is a strong predictor of stagnation and ozone pollution days in the eastern US. The NCEP/NCAR Reanalysis, going back to 1948, shows a significant long-term decline in the number of summertime mid-latitude cyclones in that track starting in 1980 (-0.15 a(-1)). The more recent but shorter NCEP/DOE Reanalysis (1979 - 2006) shows similar interannual variability in cyclone frequency but no significant long-term trend. Analysis of NOAA daily weather maps for 1980 - 2006 supports the trend detected in the NCEP/NCAR Reanalysis 1. A GISS general circulation model (GCM) simulation including historical forcing by greenhouse gases reproduces this decreasing cyclone trend starting in 1980. Such a long-term decrease in mid-latitude cyclone frequency over the 1980 - 2006 period may have offset by half the ozone air quality gains in the northeastern US from reductions in anthropogenic emissions. We find that if mid-latitude cyclone frequency had not declined, the northeastern US would have been largely compliant with the ozone air quality standard by 2001. Mid-latitude cyclone frequency is expected to decrease further over the coming decades in response to greenhouse warming and this will necessitate deeper emission reductions to achieve a given air quality goal.
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