Impact of biomass burning on air quality: A case study of the agricultural region in South Korea

IF 4.2 2区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES
Jihee Ban , Taehyun Park , Seokwon Kang , Siyoung Choi , Gracie Wong , Jinsoo Choi , Beom-Keun Seo , Saewung Kim , Joonyoung Ahn , Yongjae Lim , Minyoung Sung , Soyoung Jung , Jiyun Jung , Hyunjae Kim , Seung-Myung Park , Jaeyun Lee , Jongho Kim , Jeongho Kim , Soo Bog Park , Jinsoo Park , Taehyoung Lee
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引用次数: 0

Abstract

Various combustion processes occur concurrently during biomass burning events, emitting a complex mixture of particulate and gaseous pollutants into the atmosphere. These emissions undergo chemical transformations facilitated by factors such as solar radiation and cloud formation, thereby altering the composition of aerosols. Additionally, these pollutants can affect the region of origin and neighboring countries, presenting regional and global environmental challenges. Therefore, precise evaluation of the particulate and gaseous pollutants emitted during biomass burning is essential to formulate effective management strategies. This study aimed to assess the concentration and chemical characteristics of particulate matter emitted during biomass burning in South Korea. On June 7, 2021, a research flight was conducted utilizing a High Resolution Time-of-Flight Aerosol Mass Spectrometer (HR-ToF-AMS) and a Single Particle Soot Photometer (SP2) for airborne measurements over South Korea inland areas. For data analysis based on administrative regions, the flight path was divided into four major areas (Areas A, B, C, and D). During the research flight, evidence of biomass burning events was observed primarily in Area C. A positive matrix factorization (PMF) analysis categorized the organic aerosols (OA) into five factors: biomass burning OA (BBOA), hydrocarbon-like OA (HOA1, HOA2), low-oxidized oxygenated OA (LO-OOA), and more-oxidized OOA (MO-OOA). Across all areas, MO-OOA accounted for the highest proportion of aerosols, whereas BBOA dominated in Area C at 23.8%, indicating the significant influence of biomass burning in this region. Instead of running a PMF analysis with all measurement data, a BBOA formula was derived from the previous study and this one. This allows us to estimate BBOA concentration without running PMF.
生物质燃烧对空气质量的影响:韩国农业地区案例研究
在生物质燃烧过程中,各种燃烧过程同时进行,向大气中排放颗粒和气体污染物的复杂混合物。这些排放物会在太阳辐射和云层形成等因素的作用下发生化学变化,从而改变气溶胶的成分。此外,这些污染物还会影响来源地区和周边国家,给地区和全球环境带来挑战。因此,精确评估生物质燃烧过程中排放的颗粒和气体污染物对于制定有效的管理策略至关重要。本研究旨在评估韩国生物质燃烧过程中排放的颗粒物的浓度和化学特征。2021 年 6 月 7 日,利用高分辨率飞行时间气溶胶质谱仪(HR-ToF-AMS)和单颗粒烟尘光度计(SP2)对韩国内陆地区进行了空中测量。为了根据行政区域进行数据分析,飞行路径被划分为四个主要区域(A、B、C 和 D 区)。研究飞行期间,主要在 C 区观测到生物质燃烧事件的证据。正矩阵因式分解(PMF)分析将有机气溶胶(OA)分为五个因子:生物质燃烧 OA(BBOA)、类碳氢化合物 OA(HOA1、HOA2)、低氧含氧 OA(LO-OOA)和高氧 OOA(MO-OOA)。在所有区域中,MO-OOA 占气溶胶的比例最高,而 BBOA 在 C 区域占 23.8%,表明生物质燃烧对该区域的影响很大。我们没有使用所有测量数据进行 PMF 分析,而是根据之前的研究和本次研究得出了一个 BBOA 公式。这样,我们就可以在不运行 PMF 的情况下估算出 BBOA 的浓度。
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来源期刊
Atmospheric Environment
Atmospheric Environment 环境科学-环境科学
CiteScore
9.40
自引率
8.00%
发文量
458
审稿时长
53 days
期刊介绍: Atmospheric Environment has an open access mirror journal Atmospheric Environment: X, sharing the same aims and scope, editorial team, submission system and rigorous peer review. Atmospheric Environment is the international journal for scientists in different disciplines related to atmospheric composition and its impacts. The journal publishes scientific articles with atmospheric relevance of emissions and depositions of gaseous and particulate compounds, chemical processes and physical effects in the atmosphere, as well as impacts of the changing atmospheric composition on human health, air quality, climate change, and ecosystems.
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