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2003年至2015年期间墨西哥大都市区气溶胶与气象的遥感及地面数据分析。

Analysis of remotely sensed and surface data of aerosols and meteorology for the Mexico Megalopolis Area between 2003 and 2015.

作者信息

Mora Marco, Braun Rachel A, Shingler Taylor, Sorooshian Armin

机构信息

Department of Chemical and Environmental Engineering, University of Arizona, Tucson, Arizona, USA.

Now at Department of Physico-Mathematics, Benemérita Universidad Autónoma de Puebla, Puebla, Mexico.

出版信息

J Geophys Res Atmos. 2017 Aug 27;122(16):8705-8723. doi: 10.1002/2017JD026739. Epub 2017 Aug 17.

DOI:10.1002/2017JD026739
PMID:28955600
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5611832/
Abstract

This paper presents an aerosol characterization study from 2003 to 2015 for the Mexico City Metropolitan Area using remotely sensed aerosol data, ground-based measurements, air mass trajectory modeling, aerosol chemical composition modeling, and reanalysis data for the broader Megalopolis of Central Mexico region. The most extensive biomass burning emissions occur between March and May concurrent with the highest aerosol optical depth, ultraviolet aerosol index, and surface particulate matter (PM) mass concentration values. A notable enhancement in coarse PM levels is observed during vehicular rush hour periods on weekdays versus weekends owing to nonengine-related emissions such as resuspended dust. Among wet deposition species measured, PM, PM, and PM (PM-PM) were best correlated with NH, SO, and Ca, suggesting that the latter three constituents are important components of the aerosol seeding raindrops that eventually deposit to the surface in the study region. Reductions in surface PM mass concentrations were observed in 2014-2015 owing to reduced regional biomass burning as compared to 2003-2013.

摘要

本文利用遥感气溶胶数据、地面测量数据、气团轨迹模型、气溶胶化学成分模型以及墨西哥中部更大区域都市带的再分析数据,对2003年至2015年墨西哥城大都市区进行了气溶胶特征研究。最广泛的生物质燃烧排放发生在3月至5月之间,同时气溶胶光学厚度、紫外气溶胶指数和地表颗粒物(PM)质量浓度值也最高。由于非发动机相关排放(如扬尘),工作日车辆高峰时段的粗颗粒物PM水平比周末有显著提高。在所测量的湿沉降物种中,PM、PM和PM(PM-PM)与NH、SO和Ca的相关性最好,这表明后三种成分是气溶胶播种雨滴的重要组成部分,最终在研究区域沉积到地表。与2003年至2013年相比,由于区域生物质燃烧减少,2014年至2015年地表PM质量浓度有所下降。