Simulated Surface-Column NO2 Connections for Satellite Applications

IF 3.8 2区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES Journal of Geophysical Research: Atmospheres Pub Date : 2024-10-29 DOI:10.1029/2024JD041912
M. Harkey, T. Holloway
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Abstract

Observations of near-surface NO2 show a diurnal pattern with midday minima and daily maxima in the morning and evening. These surface cycles are dependent on chemical processing, transport, and emissions. We evaluate these cycles with the United States Environmental Protection Agency (EPA) community multiscale air quality (CMAQ) model data from the EPA Air Quality Time Series (EQUATES) project, compared with ground-based measurements from the EPA air quality system, two Pandora measurement sites, and satellite data from TROPOMI. We find that the morning vertical column density (VCD) lags surface concentrations by 1 hr on average, where this lag varies with location and day. The peak VCD can also lead the surface maximum concentration, especially in the evening, responding to transport and afternoon compression of the boundary layer. Modeled NO2 VCD is sensitive to column calculation technique. With hourly daytime satellite-based NO2 observations newly available from the TEMPO instrument, the timing and magnitude of cycles in near-surface NO2 versus column NO2 will help inform the utilization of hourly satellite data. This work will help inform the timing of surface-column connections to better interpret new hourly satellite observations for health and air quality applications, including emissions characterization.

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卫星应用中的模拟地表-柱状 NO2 连接
对近地表 NO2 的观测显示出昼夜模式,中午为最小值,早晚为最大值。这些地表周期取决于化学处理、传输和排放。我们利用美国环保署(EPA)空气质量时间序列(EQUATES)项目中的社区多尺度空气质量(CMAQ)模型数据,并与来自 EPA 空气质量系统、两个 Pandora 测量站点的地面测量数据以及 TROPOMI 卫星数据进行比较,对这些周期进行了评估。我们发现,早晨的垂直气柱密度(VCD)平均滞后地面浓度 1 小时,这一滞后随地点和日期而变化。垂直气柱密度峰值也可能领先于地表最大浓度,尤其是在傍晚,这与边界层的传输和午后压缩有关。模拟的二氧化氮 VCD 对气柱计算技术很敏感。随着 TEMPO 仪器新近提供基于卫星的每小时白天二氧化氮观测数据,近地表二氧化氮与大气柱二氧化氮的周期时间和幅度将有助于为每小时卫星数据的利用提供信息。这项工作将有助于为地表-气柱连接的时间提供信息,从而更好地解释新的每小时卫星观测数据,用于健康和空气质量应用,包括排放特征描述。
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来源期刊
Journal of Geophysical Research: Atmospheres
Journal of Geophysical Research: Atmospheres Earth and Planetary Sciences-Geophysics
CiteScore
7.30
自引率
11.40%
发文量
684
期刊介绍: JGR: Atmospheres publishes articles that advance and improve understanding of atmospheric properties and processes, including the interaction of the atmosphere with other components of the Earth system.
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