Variability of Concentration of Aerosol Particles, Polycyclic Aromatic Hydrocarbons, and Polychlorinated Biphenyls in the Atmosphere above the Surface of Lake Baikal

IF 0.3 Q4 GEOGRAPHY

Geography and Natural Resources Pub Date : 2024-07-04 DOI:10.1134/s1875372824700094

I. I. Marinaite, T. V. Hodger, M. Y. Shikhovtsev, O. V. Kustova, V. L. Potemkin

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Abstract

This article presents the results of temporal and spatial distribution of aerosol particles and microadmixtures included into them (polycyclic aromatic hydrocarbons and polychlorinated biphenyls) in the near-water layer of the atmosphere above Lake Baikal obtained during a ship expedition from July 18 to July 24, 2022. During the study period, in the lake near-water atmosphere, for the most part, low values of mass and number concentration of aerosol particles and resistant organic pollutants (polycyclic aromatic hydrocarbon (PAHs) and polychlorinated biphenyl (PCBs)) were observed when compared to the fire hazard periods of 2016–2020. During the expedition, the PAHs content in the atmosphere varied from 0.071 to 2.6 ng/m³, which is lower than the concentrations established during the fires (0.22–133 ng/m³). Increased concentrations of the studied components were found only in some areas of southern Baikal, where the formation of aerosol structure occurred due to local pollution sources situated in the populated near-shore areas (namely, Listvyanka, Kultuk, Slyudyanka, and Baikalsk) and at the moment of transfer of polluted air masses northwestward to the lake from Irkutsk and Angarsk. In the aerosol samples from background areas, a PAHs group with two or three benzene rings dominated mainly by naphthalene and phenanthrene. Near local sources in the southern part of Lake Baikal, the proportion of PAHs with four, five, and six benzene rings (fluoranthene > pyrene > benz(b)fluoranthene) increased; they are of pyrogenic origin and are formed at high temperature processes of organic fuel combustion (while combusting coal, wood, and liquid fuel). We revealed a positive correlation between the content of aerosol particles and PAHs. The concentrations of aerosol particles (1.0–13.7 µg/m³) and benz(а)pyrene (0.01–0.22 ng/m³) rated in Russia did not exceed the MAC. Despite the prohibition of production and limited use of PCBs, their traces were found in various industrial and background regions worldwide. It is shown that polychlorinated biphenyls content in Lake Baikal near-water atmosphere (0.48–5.63 pg/m³) is comparable to the concentrations observed in background regions worldwide (0.04–25 pg/m³).

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贝加尔湖湖面上空大气中气溶胶粒子、多环芳香烃和多氯联苯浓度的变化情况

摘要本文介绍了2022年7月18日至7月24日船舶考察期间获得的贝加尔湖上空近水层大气中气溶胶颗粒及其微混合物（多环芳烃和多氯联苯）的时空分布结果。在研究期间，与 2016-2020 年的火灾危险期相比，在贝加尔湖近水层大气中观察到的大部分气溶胶颗粒和抗性有机污染物（多环芳烃和多氯联苯）的质量和数量浓度值较低。考察期间，大气中的多环芳烃含量从 0.071 到 2.6 纳克/立方米不等，低于火灾期间确定的浓度（0.22-133 纳克/立方米）。只有在贝加尔湖南部的一些地区才会发现所研究成分的浓度升高，这些地区的气溶胶结构是由于近岸人口稠密地区（即利斯特维扬卡、库尔图克、斯柳迪扬卡和贝加尔斯克）的本地污染源，以及污染气团从伊尔库茨克和安加尔斯克向西北方向转移到贝加尔湖时形成的。在背景地区的气溶胶样本中，多环芳烃组中有两个或三个苯环，主要是萘和菲。在贝加尔湖南部的本地污染源附近，具有四个、五个和六个苯环的多环芳烃（氟蒽、芘、苯并（b）氟蒽）的比例有所增加；这些多环芳烃来源于热源，是在有机燃料的高温燃烧过程中（煤炭、木材和液体燃料燃烧时）形成的。我们发现气溶胶颗粒的含量与多环芳烃之间存在正相关。俄罗斯的气溶胶颗粒浓度（1.0-13.7 微克/立方米）和苯并芘浓度（0.01-0.22 纳克/立方米）均未超过 MAC 值。尽管多氯联苯已被禁止生产和有限使用，但在全球各工业区和背景区仍可发现其踪迹。研究表明，贝加尔湖近水大气中的多氯联苯含量（0.48-5.63 皮克/立方米）与全球背景地区观测到的浓度（0.04-25 皮克/立方米）相当。

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Geography and Natural Resources GEOGRAPHY-

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0.50

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期刊介绍： Geography and Natural Resources publishes information on research results in the field of geographical studies of nature, the economy, and the population. It provides ample coverage of the geographical aspects related to solving major economic problems, with special emphasis on regional nature management and environmental protection, geographical forecasting, integral regional research developments, modelling of natural processes, and on the advancement of mapping techniques. The journal publishes contributions on monitoring studies, geographical research abroad, as well as discussions on the theory of science.