Title of article
The effects of meteorology on ozone in urban areas and their use in assessing ozone trends
Author/Authors
Louise Camalier، نويسنده , , William Cox، نويسنده , , Pat Dolwick، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
11
From page
7127
To page
7137
Abstract
The United States Environmental Protection Agency issues periodic reports that describe air quality trends in the US.
For some pollutants, such as ozone, both observed and meteorologically adjusted trends are displayed. This paper
describes an improved statistical methodology for meteorologically adjusting ozone trends as well as characterizes the
relationships between individual meteorological parameters and ozone. A generalized linear model that accommodates
the nonlinear effects of the meteorological variables was fit to data collected for 39 major eastern US urban areas. Overall,
the model performs very well, yielding R2 statistics as high as 0.80. The analysis confirms that ozone is generally increasing
with increasing temperature and decreasing with increasing relative humidity. Examination of the spatial gradients of these
responses show that the effect of temperature on ozone is most pronounced in the north while the opposite is true of
relative humidity. By including HYSPLIT-derived transport wind direction and distance in the model, it is shown that the
largest incremental impact of wind direction on ozone occurs along the periphery of the study domain, which encompasses
major NOx emission sources.
Published by Elsevier Ltd.
Keywords
Generalized linear model , ozone trends , Spatial patterns , meteorological adjustment , HYSPLIT
Journal title
Atmospheric Environment
Serial Year
2007
Journal title
Atmospheric Environment
Record number
760542
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