Journal
ENVIRONMENTAL SCIENCE & TECHNOLOGY
Volume 43, Issue 3, Pages 571-577Publisher
AMER CHEMICAL SOC
DOI: 10.1021/es800854f
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Funding
- NCER STAR Program
- EPA [RD-83096101-0]
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We examined future ozone (O-3) air quality in the United States (U.S.) under changing climate and anthropogenic emissions worldwide by performing global climate-chemistry simulations, utilizing various combinations of present (1990s) and future (Intergovernmental Panel on Climate Change (IPCC) Special Report on Emissions Scenarios (SRES) A22050s) climates, and present and future (2050s; IPCC SRES A2 and 131) anthropogenic emissions. The A2 climate scenario is employed here because it lies at the upper extreme of projected climate change for the 21st century. To examine the sensitivity of U.S. O-3 to regional emissions increases (decreases), the IPCC SRES A2 and B1 scenarios, which have overall higher and lower O-3 -precursor emissions for the U.S., respectively, have been chosen. We find that climate change, by itself, significantly worsens the severity and frequency of high-O-3 events (episodes) over most locations in the U.S., with relatively small changes in average O-3 air quality. These high-O-3 increases due to climate change alone will erode moderately the gains made under a U.S. emissions reduction scenario (e.g., B1). The effect of climate change on high- and average-O-3 increases with anthropogenic emissions. Insofar as average O-3 air quality is concerned, changes in U.S. anthropogenic emissions will play the most important role in attaining (or not) near-term U-S. O-3 air quality standards. However, policy makers must plan appropriately for O-3 background increases due to projected increases in global CH4 abundance and non-U.S. anthropogenic emissions, as well as potential local enhancements that they could cause. These findings provide strong incentives for more-than-planned emissions reductions at locations that are currently O-3 -nonattainment
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