Analysis of the first surface nitrogen dioxide concentration observations over the South African Highveld derived from the Pandora-2s instrument

Q3 Environmental Science

Clean Air Journal Pub Date : 2022-06-24 DOI:10.17159/caj/2022/32/1.13242

R. Kai, M. Scholes, S. Piketh, R. Scholes

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引用次数: 0

Abstract

Anthropogenic emissions from industry, biomass burning and traffic are significant contributors to the atmospheric loading of nitrogen dioxide on the South African Highveld. These sources are dispersed across the region and emit nitrogen oxides (NO and NO2)into the atmosphere at different elevations above the earth's surface. Additionally, atmospheric stability in the form of surface andelevated inversions decreases the dispersion of air pollutants and stratifies pollutants into distinctive layers above the surface. Thisstudy explores the Highveld near-surface nitrogen dioxide concentrations obtained using the ground-based Pandora-2s monitoringsystem. The Pandora-2s instrument retrieves surface NO2 levels from clear sky measurements using a fully parameterised algorithm.We present the first near-surface concentration measurements of atmospheric NO2 at Wakkerstroom, a site between Volksrust andAmersfoort, downstream of major source conglomerates, the Majuba power station and other industries. These data are exploredin the presence and context of potential background NO2 concentrations in the area derived from other ground-based sensors. Thequasicontinuous data show elevated surface NO2 levels in week 37 (September) of 2020 (7.3 ± 5.7 ppb), while the lowest levels wereobserved in week 15 (April) of 2020 (0.2 ± 0.04 ppb). The elevated surface NO2 levels are driven by dominant emission sources andtransport trajectories, while the accuracy in the measurements is based on the high temporal resolution of the ground-based Pandora2s instrument.

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Pandora-2s仪器对南非高原首次地表二氧化氮浓度观测结果的分析

来自工业、生物质燃烧和交通的人为排放是南非高原大气中二氧化氮负荷的重要贡献者。这些来源分散在整个地区，并在地球表面以上不同高度向大气中排放氮氧化物(NO和NO2)。此外，地表和高空逆温形式的大气稳定性减少了空气污染物的扩散，并将污染物分层成地表以上的不同层。本研究探讨了利用地面潘多拉-2s监测系统获得的高原近地表二氧化氮浓度。潘多拉-2s仪器使用完全参数化算法从晴空测量中检索表面二氧化氮水平。我们首次在Wakkerstroom对大气中二氧化氮的近地表浓度进行了测量。Wakkerstroom位于Volksrust和amersfoort之间，位于主要污染源集团、Majuba发电站和其他工业的下游。这些数据是在其他地面传感器得出的该地区潜在背景二氧化氮浓度的存在和背景下进行探讨的。准连续数据显示，2020年第37周(9月)地表NO2浓度升高(7.3±5.7 ppb)，第15周(4月)最低(0.2±0.04 ppb)。地表NO2水平的升高是由主要的排放源和输送轨迹驱动的，而测量的精度是基于地面Pandora2s仪器的高时间分辨率。

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

Clean Air Journal Environmental Science-Management, Monitoring, Policy and Law

CiteScore

1.80

自引率

0.00%

发文量

审稿时长

8 weeks

期刊介绍： Clean Air Journal is the official publication of the National Association for Clean Air, a not-for-profit organisation. Clean Air Journal is a peer-reviewed journal for those interested in air quality, air quality management, and the impacts of air pollution relevant to Africa. The focus of the journal includes, but is not limited to: Impacts of human activities and natural processes on ambient air quality Air quality and climate change linkages Air pollution mitigation technologies and applications Matters of public policy regarding air quality management Measurement and analysis of ambient and indoor air pollution Atmospheric modelling application and development Atmospheric emissions Other topics on atmospheric physics or chemistry with particular relevance to Africa The scope of the journal is broad, but the core theme of the journal is air quality in Africa.