A comprehensive analysis of new particle formation across the northwest Atlantic: Analysis of ACTIVATE airborne data

IF 4.2 2区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES
Soodabeh Namdari , Taiwo Ajayi , Yonghoon Choi , Ewan C. Crosbie , Joshua P. DiGangi , Glenn S. Diskin , Simon Kirschler , Hongyu Liu , John B. Nowak , Michael A. Shook , Cassidy Soloff , Kenneth L. Thornhill , Christiane Voigt , Edward L. Winstead , Bo Zhang , Luke D. Ziemba , Armin Sorooshian
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Abstract

New particle formation (NPF) is a critical source of particles and cloud condensation nuclei, yet there are scarce vertically-resolved measurements addressing NPF across different seasons in marine regions. This study leverages a multi-season set of airborne data from the NASA ACTIVATE mission between 2020 and 2022 to examine NPF characteristics over the northwest Atlantic ranging from the polluted U.S. East Coast to as far downwind (>1000 km) as Bermuda. Using the number concentration ratio above 3 and 10 nm (N3:N10) as a NPF indicator, we observe the highest ratios in the coldest months and comparable ratios over Bermuda relative to the U.S. East Coast. Within seasons, the highest and lowest ratios are found immediately above cloud tops and at the lowest possible flight altitudes (∼150 m above sea level), respectively. The ratio of (N3-N10)/N3 ranges from 0.16 to 0.29 depending on altitude, proximity to clouds, and season. The N3:N10 and (N3-N10)/N3 ratios increase with altitude up to as high as 9 km, with a case study showing favorable conditions around relatively thicker and precipitating cloud systems presumably due to high actinic fluxes and reduced aerosol surface area. Regression modeling reveals that increased N3:N10 is influenced most by reductions in temperature, relative humidity, and aerosol surface area. This work emphasizes the importance of both NPF in remote marine regions like Bermuda and vertical heterogeneity that exists in its contribution to aerosol and cloud condensation nuclei number budgets.

全面分析西北大西洋新粒子的形成:ACTIVATE 机载数据分析
新粒子形成(NPF)是粒子和云凝结核的一个重要来源,但目前还没有针对海洋地区不同季节的 NPF 的垂直分辨测量数据。本研究利用 2020 年至 2022 年期间 NASA ACTIVATE 任务提供的一组多季节机载数据,研究了西北大西洋上空的 NPF 特征,范围从污染严重的美国东海岸到百慕大的下风向(>1000 公里)。使用 3 海里和 10 海里以上的数量浓度比(N3:N10)作为 NPF 指标,我们观察到最冷月份的比例最高,百慕大上空的比例与美国东海岸相当。在各季中,最高和最低比率分别出现在紧靠云顶和最低飞行高度(海拔 150 米)处。(N3-N10)/N3 的比率介于 0.16 至 0.29 之间,具体取决于高度、靠近云层的程度和季节。N3:N10 和 (N3-N10)/N3 比率随海拔升高而增大,最高可达 9 千米,一项案例研究显示,在相对较厚和降水较多的云系统周围的有利条件可能是由于高放热通量和气溶胶表面积的减少。回归模型显示,N3:N10 的增加受温度、相对湿度和气溶胶表面积减少的影响最大。这项研究强调了 NPF 在百慕大等偏远海洋地区的重要性,以及 NPF 对气溶胶和云凝结核数量预算的垂直异质性。
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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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