Direct high-altitude observations of 2-methyltetrols in the gas- and particle phase in air masses from Amazonia

IF 3.1 3区化学 Q2 Chemistry Faraday Discussions Pub Date : 2025-02-28 DOI:10.1039/D4FD00179F

Claudia Mohr, Joel A. Thornton, Manish Shrivastava, Anouck Chassaing, Ilona Riipinen, Federico Bianchi, Marcos Andrade and Cheng Wu

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Abstract

We present direct observations of 2-methyltetrol (C₅H₁₂O₄) in the gas- and particle phase from the deployment of a Filter Inlet for Gases and Aerosols coupled to a Time-of-Flight Chemical Ionization Mass Spectrometer (FIGAERO-CIMS) during the Southern Hemisphere High Altitude Experiment on Particle Nucleation and Growth (SALTENA), which took place between December 2017 and June 2018 at the high-altitude Global Atmosphere Watch station Chacaltaya (CHC) located at 5240 m a s l in the Bolivian Andes. 2-Methyltetrol signals were dominant in a factor resulting from Positive Matrix Factorization (PMF) identified as influenced by Amazon emissions. We combine these observations with investigations of isoprene oxidation chemistry and uptake in an isolated deep convective cloud in the Amazon using a photochemical box model with coupled cloud microphysics and show that, likely, 2-methyltetrol is taken up by hydrometeors or formed in situ in the convective cloud, and then transported in the particle phase in the cold environment of the Amazon outflow and to the station, where it partially evaporates.

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亚马逊地区气团中2-甲基四醇气相和颗粒相的高空直接观测。

在南半球高海拔粒子成核和生长实验（SALTENA）中，我们通过部署气体和气溶胶过滤器入口与飞行时间化学电离质谱仪（FIGAERO-CIMS）耦合，对2-甲基四醇（C5H12O4）在气相和颗粒相进行了直接观测。该研究于2017年12月至2018年6月在位于玻利维亚安第斯山脉海拔5240米的高海拔全球大气监测站Chacaltaya （CHC）进行，2-甲基戊二醇信号在确定受亚马逊排放影响的正矩阵分解（PMF）产生的因素中占主导地位。我们将这些观测结果与亚马逊地区一个孤立的深层对流云中异二烯氧化化学和吸收的研究结合起来，使用具有耦合云微物理的光化学箱模型，表明2-甲基四醇很可能被水成物吸收或在对流云中原位形成，然后在亚马逊流出的寒冷环境中以颗粒阶段运输到站点，在那里它部分蒸发。

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