The role of low-volatility organic compounds in initial particle growth in the atmosphere

蒸汽 成核 云凝聚核 波动性(金融) 化学 冷凝 硫酸 化学物理 粒子(生态学) 粒径 化学工程 气溶胶 无机化学 热力学 有机化学 物理化学 物理 工程类 经济 神经科学 地质学 海洋学 金融经济学 生物
作者
Jasmin Tröstl,Wayne K. Chuang,Hamish Gordon,Martin Heinritzi,Chao Yan,Ugo Molteni,L. Ahlm,Carla Frege,Federico Bianchi,Robert Wagner,Mario Simon,Katrianne Lehtipalo,Christina Williamson,J. S. Craven,Jonathan Duplissy,Alexey Adamov,J. Almeida,Anne-Kathrin Bernhammer,Martin Breitenlechner,Sophia Brilke,António Dias,Sébastian Ehrhart,Richard C. Flagan,Alessandro Franchin,Claudia Fuchs,R. Guida,M. Gysel,Armin Hansel,C. R. Hoyle,Tuija Jokinen,Heikki Junninen,Juha Kangasluoma,Helmi Keskinen,Jaeseok Kim,Manuel Krapf,Andreas Kürten,Ari Laaksonen,Michael J. Lawler,Markus Leiminger,Serge Mathot,Ottmar Möhler,Tuomo Nieminen,Antti Onnela,Tuukka Petäjä,Felix Piel,Pasi Miettinen,Matti Rissanen,L. Rondo,Nina Sarnela,Siegfried Schobesberger,Kamalika Sengupta,Mikko Sipilä,James N. Smith,Gerhard Steiner,António Tomé,Annele Virtanen,Andrea C. Wagner,E. Weingartner,Daniela Wimmer,Paul M. Winkler,Penglin Ye,K. S. Carslaw,Joachim Curtius,Josef Dommen,J. Kirkby,Markku Kulmala,Ilona Riipinen,Douglas R. Worsnop,Neil M. Donahue,Urs Baltensperger
出处
期刊:Nature [Springer Nature]
卷期号:533 (7604): 527-531 被引量:706
标识
DOI:10.1038/nature18271
摘要

Abstract About half of present-day cloud condensation nuclei originate from atmospheric nucleation, frequently appearing as a burst of new particles near midday 1 . Atmospheric observations show that the growth rate of new particles often accelerates when the diameter of the particles is between one and ten nanometres 2,3 . In this critical size range, new particles are most likely to be lost by coagulation with pre-existing particles 4 , thereby failing to form new cloud condensation nuclei that are typically 50 to 100 nanometres across. Sulfuric acid vapour is often involved in nucleation but is too scarce to explain most subsequent growth 5,6 , leaving organic vapours as the most plausible alternative, at least in the planetary boundary layer 7,8,9,10 . Although recent studies 11,12,13 predict that low-volatility organic vapours contribute during initial growth, direct evidence has been lacking. The accelerating growth may result from increased photolytic production of condensable organic species in the afternoon 2 , and the presence of a possible Kelvin (curvature) effect, which inhibits organic vapour condensation on the smallest particles (the nano-Köhler theory) 2,14 , has so far remained ambiguous. Here we present experiments performed in a large chamber under atmospheric conditions that investigate the role of organic vapours in the initial growth of nucleated organic particles in the absence of inorganic acids and bases such as sulfuric acid or ammonia and amines, respectively. Using data from the same set of experiments, it has been shown 15 that organic vapours alone can drive nucleation. We focus on the growth of nucleated particles and find that the organic vapours that drive initial growth have extremely low volatilities (saturation concentration less than 10 −4.5 micrograms per cubic metre). As the particles increase in size and the Kelvin barrier falls, subsequent growth is primarily due to more abundant organic vapours of slightly higher volatility (saturation concentrations of 10 −4.5 to 10 −0.5 micrograms per cubic metre). We present a particle growth model that quantitatively reproduces our measurements. Furthermore, we implement a parameterization of the first steps of growth in a global aerosol model and find that concentrations of atmospheric cloud concentration nuclei can change substantially in response, that is, by up to 50 per cent in comparison with previously assumed growth rate parameterizations.
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