Photochemical sensitivity to emissions and local meteorology in Bogotá, Santiago, and São Paulo

IF 4.7 3区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

Elementa-Science of the Anthropocene Pub Date : 2022-01-01 DOI:10.1525/elementa.2021.00044

R. Seguel, L. Gallardo, M. Osses, N. Rojas, Thiago Nogueira, C. Menares, M. de Fátima Andrade, L. Belalcázar, Paula Carrasco, H. Eskes, Z. Fleming, N. Huneeus, S. Ibarra-Espinosa, E. Landulfo, M. Leiva, Sonia C. Mangones, F. Morais, G. A. Moreira, Nicolás Pantoja, Santiago Parraguez, Jhojan P. Rojas, R. Rondanelli, Izabel da Silva Andrade, R. Toro, Alexandre C. Yoshida

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引用次数: 5

Abstract

This study delves into the photochemical atmospheric changes reported globally during the pandemic by analyzing the change in emissions from mobile sources and the contribution of local meteorology to ozone (O3) and particle formation in Bogotá (Colombia), Santiago (Chile), and São Paulo (Brazil). The impact of mobility reductions (50%–80%) produced by the early coronavirus-imposed lockdown was assessed through high-resolution vehicular emission inventories, surface measurements, aerosol optical depth and size, and satellite observations of tropospheric nitrogen dioxide (NO2) columns. A generalized additive model (GAM) technique was also used to separate the local meteorology and urban patterns from other drivers relevant for O3 and NO2 formation. Volatile organic compounds, nitrogen oxides (NOx), and fine particulate matter (PM2.5) decreased significantly due to motorized trip reductions. In situ nitrogen oxide median surface mixing ratios declined by 70%, 67%, and 67% in Bogotá, Santiago, and São Paulo, respectively. NO2 column medians from satellite observations decreased by 40%, 35%, and 47%, respectively, which was consistent with the changes in mobility and surface mixing ratio reductions of 34%, 25%, and 34%. However, the ambient NO2 to NOx ratio increased, denoting a shift of the O3 formation regime that led to a 51%, 36%, and 30% increase in the median O3 surface mixing ratios in the 3 respective cities. O3 showed high sensitivity to slight temperature changes during the pandemic lockdown period analyzed. However, the GAM results indicate that O3 increases were mainly caused by emission changes. The lockdown led to an increase in the median of the maximum daily 8-h average O3 of between 56% and 90% in these cities.

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波哥大、圣地亚哥和圣保罗对排放物的光化学敏感性和当地气象

本研究通过分析波哥大(哥伦比亚)、圣地亚哥(智利)和圣保罗(巴西)的移动源排放变化以及当地气象对臭氧(O3)和颗粒形成的贡献，深入研究了大流行期间全球报告的光化学大气变化。通过高分辨率车辆排放清单、表面测量、气溶胶光学深度和大小以及对流层二氧化氮(NO2)柱的卫星观测，评估了早期冠状病毒强制封锁造成的流动性减少(50%-80%)的影响。采用广义加性模型(GAM)技术将当地气象和城市模式与O3和NO2形成相关的其他驱动因素分离开来。由于机动车出行次数的减少，挥发性有机化合物、氮氧化物(NOx)和细颗粒物(PM2.5)显著减少。在波哥大、圣地亚哥和圣保罗，原位氮氧化物中位数表面混合比分别下降了70%、67%和67%。卫星观测的NO2柱中位数分别下降了40%、35%和47%，这与迁移率和地表混合比减少34%、25%和34%的变化相一致。然而，环境NO2 / NOx比增加，表明O3形成机制发生了转变，导致3个城市O3表面混合比中位数分别增加了51%、36%和30%。在大流行封锁期间，O3对轻微的温度变化表现出高度敏感性。然而，GAM结果表明，O3的增加主要是由排放变化引起的。封锁导致这些城市的最大每日8小时平均O3的中位数增加了56%至90%。

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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来源期刊

Elementa-Science of the Anthropocene Earth and Planetary Sciences-Atmospheric Science

CiteScore

6.90

自引率

5.10%

发文量

审稿时长

16 weeks

期刊介绍： A new open-access scientific journal, Elementa: Science of the Anthropocene publishes original research reporting on new knowledge of the Earth’s physical, chemical, and biological systems; interactions between human and natural systems; and steps that can be taken to mitigate and adapt to global change. Elementa reports on fundamental advancements in research organized initially into six knowledge domains, embracing the concept that basic knowledge can foster sustainable solutions for society. Elementa is published on an open-access, public-good basis—available freely and immediately to the world.