Editorial Type:
Article
Article Type:
Research Article

A Statistical Framework to Identify the Influence of Large-Scale Weather Events on Regional Air Pollution

Angadh Singh University of California, Davis, Davis, California

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Ahmet Palazoglu University of California, Davis, Davis, California

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Print Publication:
01 Dec 2011
DOI:
https://doi.org/10.1175/2011JAMC2669.1
Page(s):
2376–2393
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Abstract

Regional air pollution episodes occur as a result of increased emissions and prevalence of conducive meteorological conditions. The frequency of occurrence of such favorable conditions on a regional scale may be influenced by large-scale climatic events like ENSO and the Pacific decadal oscillation (PDO). The scarcity of measurements of criteria pollutants, especially ozone and particulate matter (PM), prior to the last 10–15-yr period, limits the scope of observing the influence of climate variability during recent decades on regional pollution levels. The authors propose a novel statistical framework to utilize available measurements and characterize synoptic influences on regional PM pollution in California’s Central Valley during 1998–2008. The identified target conditions are used to develop a classification scheme to scan historical climate datasets dating back to 1948. The procedure identifies exceedance-conducive days during 1950–98, when no PM2.5 measurements were available. Temporal patterns in seasonal frequency of these identified exceedance-conducive days are investigated for temporal patterns driven by ENSO and PDO.

Corresponding author address: Ahmet Palazoglu, University of California, Davis, One Shields Avenue, Davis, CA 95616. E-mail: anpalazoglu@ucdavis.edu

Abstract

Regional air pollution episodes occur as a result of increased emissions and prevalence of conducive meteorological conditions. The frequency of occurrence of such favorable conditions on a regional scale may be influenced by large-scale climatic events like ENSO and the Pacific decadal oscillation (PDO). The scarcity of measurements of criteria pollutants, especially ozone and particulate matter (PM), prior to the last 10–15-yr period, limits the scope of observing the influence of climate variability during recent decades on regional pollution levels. The authors propose a novel statistical framework to utilize available measurements and characterize synoptic influences on regional PM pollution in California’s Central Valley during 1998–2008. The identified target conditions are used to develop a classification scheme to scan historical climate datasets dating back to 1948. The procedure identifies exceedance-conducive days during 1950–98, when no PM2.5 measurements were available. Temporal patterns in seasonal frequency of these identified exceedance-conducive days are investigated for temporal patterns driven by ENSO and PDO.

Corresponding author address: Ahmet Palazoglu, University of California, Davis, One Shields Avenue, Davis, CA 95616. E-mail: anpalazoglu@ucdavis.edu
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Journal of Applied Meteorology and Climatology

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