School of Computer Engineering and Science, Shanghai University, Shanghai, 200444, China,
Environ Monit Assess. 2014 May;186(5):2895-906. doi: 10.1007/s10661-013-3588-2. Epub 2013 Dec 23.
In this study, we explored the potential applications of the Ozone Monitoring Instrument (OMI) satellite sensor in air pollution research. The OMI planetary boundary layer sulfur dioxide (SO2_PBL) column density and daily average surface SO2 concentration of Shanghai from 2004 to 2012 were analyzed. After several consecutive years of increase, the surface SO2 concentration finally declined in 2007. It was higher in winter than in other seasons. The coefficient between daily average surface SO2 concentration and SO2_PBL was only 0.316. But SO2_PBL was found to be a highly significant predictor of the surface SO2 concentration using the simple regression model. Five meteorological factors were considered in this study, among them, temperature, dew point, relative humidity, and wind speed were negatively correlated with surface SO2 concentration, while pressure was positively correlated. Furthermore, it was found that dew point was a more effective predictor than temperature. When these meteorological factors were used in multiple regression, the determination coefficient reached 0.379. The relationship of the surface SO2 concentration and meteorological factors was seasonally dependent. In summer and autumn, the regression model performed better than in spring and winter. The surface SO2 concentration predicting method proposed in this study can be easily adapted for other regions, especially most useful for those having no operational air pollution forecasting services or having sparse ground monitoring networks.
在本研究中,我们探讨了臭氧监测仪(OMI)卫星传感器在空气污染研究中的潜在应用。分析了 2004 年至 2012 年 OMI 行星边界层二氧化硫(SO2_PBL)柱密度和上海地区日平均地面 SO2 浓度。经过连续几年的增加,上海地区的地面 SO2 浓度最终在 2007 年下降。冬季的浓度高于其他季节。日平均地面 SO2 浓度与 SO2_PBL 之间的系数仅为 0.316。但是,使用简单回归模型发现 SO2_PBL 是地面 SO2 浓度的高度显著预测因子。本研究共考虑了五个气象因素,其中,温度、露点、相对湿度和风速与地面 SO2 浓度呈负相关,而气压与地面 SO2 浓度呈正相关。此外,发现露点比温度更能有效预测。当这些气象因素用于多元回归时,确定系数达到 0.379。地面 SO2 浓度与气象因素的关系具有季节性依赖性。在夏季和秋季,回归模型的表现优于春季和冬季。本研究提出的地面 SO2 浓度预测方法可以很容易地应用于其他地区,特别是对于那些没有运行中的空气污染预报服务或地面监测网络稀疏的地区非常有用。