Neighborhood-Level Nitrogen Dioxide Inequalities Contribute to Surface Ozone Variability in Houston, Texas.

ACS ES&T Air Pub Date : 2024-07-30 eCollection Date: 2024-09-13 DOI:10.1021/acsestair.4c00009
Isabella M Dressel, Sixuan Zhang, Mary Angelique G Demetillo, Shan Yu, Kimberly Fields, Laura M Judd, Caroline R Nowlan, Kang Sun, Alexander Kotsakis, Alexander J Turner, Sally E Pusede
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Abstract

In Houston, Texas, nitrogen dioxide (NO2) air pollution disproportionately affects Black, Latinx, and Asian communities, and high ozone (O3) days are frequent. There is limited knowledge of how NO2 inequalities vary in urban air quality contexts, in part from the lack of time-varying neighborhood-level NO2 measurements. First, we demonstrate that daily TROPOspheric Monitoring Instrument (TROPOMI) NO2 tropospheric vertical column densities (TVCDs) resolve a major portion of census tract-scale NO2 inequalities in Houston, comparing NO2 inequalities based on TROPOMI TVCDs and spatiotemporally coincident airborne remote sensing (250 m × 560 m) from the NASA TRacking Aerosol Convection ExpeRiment-Air Quality (TRACER-AQ). We further evaluate the application of daily TROPOMI TVCDs to census tract-scale NO2 inequalities (May 2018-November 2022). This includes explaining differences between mean daily NO2 inequalities and those based on TVCDs oversampled to 0.01° × 0.01° and showing daily NO2 column-surface relationships weaken as a function of observation separation distance. Second, census tract-scale NO2 inequalities, city-wide high O3, and mesoscale airflows are found to covary using principal component and cluster analysis. A generalized additive model of O3 mixing ratios versus NO2 inequalities reproduces established nonlinear relationships between O3 production and NO2 concentrations, providing observational evidence that neighborhood-level NO2 inequalities and O3 are coupled. Consequently, emissions controls specifically in Black, Latinx, and Asian communities will have co-benefits, reducing both NO2 disparities and high O3 days city wide.

邻里层面的二氧化氮不平等导致了得克萨斯州休斯顿的地表臭氧变化。
在得克萨斯州休斯顿,二氧化氮(NO2)空气污染对黑人、拉丁裔和亚裔社区的影响尤为严重,臭氧(O3)高发日也很频繁。人们对二氧化氮不平等现象在城市空气质量背景下的变化知之甚少,部分原因是缺乏随时间变化的邻里级二氧化氮测量数据。首先,我们比较了基于 TROPOMI TVCD 的二氧化氮不平等和来自美国宇航局气溶胶对流跟踪试验-空气质量(TRACER-AQ)的时空重合航空遥感(250 米 × 560 米),证明每日 TROPOspheric Monitoring Instrument(TROPOMI)二氧化氮对流层垂直柱密度(TVCD)解决了休斯顿人口普查区尺度二氧化氮不平等的大部分问题。我们进一步评估了每日 TROPOMI TVCD 在普查区尺度 NO2 不平等中的应用(2018 年 5 月至 2022 年 11 月)。这包括解释平均每日二氧化氮不平等与基于超采样到 0.01° × 0.01° 的 TVCD 之间的差异,并显示每日二氧化氮柱面-表面关系随着观测间隔距离的增加而减弱。其次,利用主成分和聚类分析发现,普查区尺度的二氧化氮不平等、全市范围的高臭氧和中尺度气流是共生的。O3 混合比与 NO2 不平等的广义相加模型再现了 O3 生成与 NO2 浓度之间已确立的非线性关系,为邻里层面的 NO2 不平等与 O3 的耦合提供了观测证据。因此,专门针对黑人、拉丁裔和亚裔社区的排放控制将产生共同效益,减少全市范围内的二氧化氮差异和高臭氧天数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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