Meteorologically adjusted ozone trends in urban areas: A probabilistic approach

William M. Cox, Shao-Hang Chu
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引用次数: 98

Abstract

A method has been developed that explicitly accounts for the effect of meteorological fluctuations on the annual distribution of ground-level ozone in urban areas. The model includes a trend component that adjusts the annual rate of change in ozone for concurrent impacts of meteorological conditions, including surface temperature and wind speed. The model was applied using available data from 43 urban areas throughout the U.S.A. where ozone levels frequently exceed the National Ambient Air Quality Standard. The results suggest that meteorologically adjusted upper percentiles of the distribution of daily maximum 1-h ozone are decreasing in most urban areas over the period from 1981 to 1991. The median rate of change was −1.1% per year indicating that ozone levels have decreased approximately 11% over this time period. Trends estimated by ignoring the meteorological component appear to underestimate the rate of improvement in ozone primarily because of the uneven year-to-year distribution of meteorological conditions favorable to ozone.

城市地区经气象调整的臭氧趋势:一种概率方法
已经开发出一种方法,明确说明气象波动对城市地区地面臭氧年分布的影响。该模型包括一个趋势成分,根据气象条件(包括地表温度和风速)的同时影响,调整臭氧的年变化率。该模型使用了来自美国43个城市地区的可用数据,这些城市的臭氧水平经常超过国家环境空气质量标准。结果表明:1981 ~ 1991年,大部分城市地区日最大1 h臭氧分布经气象调整后的上百分位数呈下降趋势。年平均变化率为- 1.1%,表明臭氧水平在这段时间内下降了约11%。忽略气象成分所估计的趋势似乎低估了臭氧改善的速度,这主要是因为有利于臭氧的气象条件的年际分布不均衡。
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