Extreme Events of Aerosol Pollution of the Atmosphere in Winter in Tomsk Akademgorodok

IF 0.9 Q4 OPTICS Atmospheric and Oceanic Optics Pub Date : 2024-03-23 DOI:10.1134/S1024856024010147

E. P. Yausheva, V. A. Gladkikh, A. P. Kamardin, V. P. Shmargunov

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Abstract

Monitoring measurements of aerosol characteristics and meteorological parameters in the lower atmospheric layer in the winter periods of 2016–2022 in Akademgorodok located in the southeast of Tomsk were used to analyze the conditions for the occurrence of extreme concentrations of submicron particles and black carbon in their composition in the surface layer. It is shown that when surface air temperature inversion and weak (down to 1.5 m/s) wind (air stagnation) occur in combination, the average aerosol characteristics under study increase by as much as a factor of three, and by as much as a factor of 7–8 relative to the seasonal averages in the case of a weak northwesterly wind. It is found that in situations with multiday air stagnation, the typical daily behavior, characterized by the afternoon minimum, changes. The concentrations increase until 15:00 LT up to the values 1.8 times larger than the nighttime minimum. On the other winter days, the maximum occurs at 10:00 LT, with the concentrations of submicron (black carbon) particles being a factor of 1.2 (a factor of 1.5) larger than the nighttime minimum.

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托木斯克阿卡德姆戈罗多克冬季大气气溶胶污染极端事件

摘要通过对托木斯克东南部 Akademgorodok 地区 2016-2022 年冬季低层大气中气溶胶特征和气象参数的监测测量，分析了表层亚微米颗粒及其成分中黑炭极端浓度的发生条件。结果表明，当地表气温反常和微弱（低至 1.5 米/秒）风（空气停滞）同时出现时，所研究的气溶胶平均特性会增加 3 倍，而在微弱西北风的情况下，相对于季节平均值会增加 7-8 倍。研究发现，在多日空气停滞的情况下，以午后最低气温为特征的典型日常行为发生了变化。直到下午 15:00 时，浓度会增加到夜间最低值的 1.8 倍。在冬季的其他日子里，最大值出现在 10:00 时，亚微米（黑碳）粒子的浓度比夜间最小值大 1.2 倍（1.5 倍）。

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来源期刊

Atmospheric and Oceanic Optics OPTICS-

CiteScore

2.40

自引率

42.90%

发文量

期刊介绍： Atmospheric and Oceanic Optics is an international peer reviewed journal that presents experimental and theoretical articles relevant to a wide range of problems of atmospheric and oceanic optics, ecology, and climate. The journal coverage includes: scattering and transfer of optical waves, spectroscopy of atmospheric gases, turbulent and nonlinear optical phenomena, adaptive optics, remote (ground-based, airborne, and spaceborne) sensing of the atmosphere and the surface, methods for solving of inverse problems, new equipment for optical investigations, development of computer programs and databases for optical studies. Thematic issues are devoted to the studies of atmospheric ozone, adaptive, nonlinear, and coherent optics, regional climate and environmental monitoring, and other subjects.