Spatio-temporal variation of aerosol optical depth and black carbon mass concentration over five airports across Bangladesh: emphasis on effect of COVID-19 lockdown

IF 1.1 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES Asian Journal of Atmospheric Environment Pub Date : 2024-07-25 DOI:10.1007/s44273-024-00038-9

Khaled Shaifullah Joy, Shahid Uz Zaman, Md. Riad Sarkar Pavel, Md. Safiqul Islam, Abdus Salam

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Abstract

Globally, the COVID-19 outbreak has had a devastating impact on both health and economy. In contrast, the reduction in anthropogenic emissions has resulted in a major improvement in air quality. In this study, US National Aeronautics and Space Administration (NASA) satellite datasets and related reanalysis model data were used with validation using ground-based data to evaluate the effects of aviation-based emissions on aerosol optical depth (AOD) and black carbon (BC). The contributions from five airports in Bangladesh were assessed during the pre-lockdown (01 Jan to 22 March), lockdown (23 March to 30 May), and post-lockdown (31 May to 30 Aug) periods in 2019 and 2020. The study’s findings show that during the 2020 lockdown, AOD and BC concentrations significantly decreased at all five airports. The overall decline of AOD was ~ 18.5% (13.1% to 22.8%) and BC was ~ 18.1% (16.6% to 22.2%) in 2020 compared to 2019. The three international airports that were examined—Dhaka, Chattagram, and Sylhet—showed an average reduction of about ~ 9.7%, while Jashore and Barisal—two domestic airports—saw a minor increase in AOD of ~ 0.8% over the same period. However, the average BC concentration at both international and domestic airports dropped by ~ 9.8% and ~ 10.2%, respectively. This is the first study to use reanalysis datasets in Bangladesh to evaluate air pollution levels and aviation-based emissions. The results highlight the significant impact of reduced aviation activity on air quality and provide valuable insights for future air pollution management strategies.

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孟加拉国五个机场上空气溶胶光学深度和黑碳质量浓度的时空变化：COVID-19 封锁的影响

在全球范围内，COVID-19 的爆发对健康和经济都造成了破坏性影响。与此相反，人为排放的减少却大大改善了空气质量。本研究使用美国国家航空航天局（NASA）的卫星数据集和相关的再分析模型数据，并利用地面数据进行验证，以评估航空排放对气溶胶光学深度（AOD）和黑碳（BC）的影响。对孟加拉国五个机场在 2019 年和 2020 年禁飞前（1 月 1 日至 3 月 22 日）、禁飞中（3 月 23 日至 5 月 30 日）和禁飞后（5 月 31 日至 8 月 30 日）期间的贡献进行了评估。研究结果表明，在 2020 年关闭期间，所有五个机场的 AOD 和 BC 浓度均显著下降。与 2019 年相比，2020 年 AOD 的总体降幅约为 18.5%（13.1% 至 22.8%），BC 的总体降幅约为 18.1%（16.6% 至 22.2%）。接受调查的三个国际机场--达卡、恰塔格拉姆和西尔赫特--的平均降幅约为 9.7%，而两个国内机场--贾肖尔和巴里萨尔--的 AOD 同期略有增加，增幅约为 0.8%。不过，国际机场和国内机场的 BC 浓度平均值分别下降了约 9.8% 和约 10.2%。这是首次使用再分析数据集对孟加拉国的空气污染水平和航空排放进行评估的研究。研究结果凸显了航空活动减少对空气质量的重大影响，并为未来的空气污染管理策略提供了宝贵的见解。

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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