Ion – particle interactions during particle formation and growth at a coniferous forest site in central Europe

Gonser, S. G.; Klein, Felix; Birmili, W.; Größ, Johannes; Kulmala, Markku; Manninen, Hanna E.; Wiedensohler, Alfred; Held, Andreas

doi:10.5194/acp-14-10547-2014

Cited by 20 publications

(23 citation statements)

References 43 publications

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“…However, statistically significant increases were observed during 62% of all PF events that were analysed. This is consistent with the recent study of Gonser et al (2014) who observed that the occurrence of the ion nucleation mode preceded that of the total particle nucleation mode during PF events suggesting that charged clusters are more likely to form particles than neutral clusters. This may also explain the occurrence of overcharging of particles smaller than 5 nm during PF events.…”

Section: Charged Fractionssupporting

confidence: 81%

“…While ion-induced nucleation was sometimes seen to contribute to new PF, many of the PF events were clearly dominated by neutral nucleation . However, recent studies, such as Herrmann et al (2013) and Gonser et al (2014) have observed increased cluster ion concentrations during PF events which indicate that ion-induced nucleation may play a role in PF. A measure of ion-induced nucleation is the so-called 'overcharging' of particles in the atmosphere Laakso et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

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Charging State of Aerosols during Particle Formation Events in an Urban Environment and Its Implications for Ion-Induced Nucleation

Jayaratne

Ling

Morawska

2016

Aerosol Air Qual. Res.

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The aim of this study was to investigate the charging state of atmospheric ions during particle formation (PF) events in an urban environment. We measured small ion (charged cluster) and large ion (charged particle) concentrations over a period of 13 months in Brisbane, Australia, using a neutral cluster and air ion spectrometer (NAIS) and obtained 245 complete days of data. PF events were observed on 110 days which count as 45% of the total. On the average, the positive small ion concentration was 40% higher than the negative. The positive large ion concentration was 20% higher than the negative. Generally, small ion concentrations peaked during the night, while large ion concentrations were a maximum during the day. Next, we classified the results into days on which there was a PF event and when there was not. We showed that PF events have a profound effect on small and large ion concentrations in the environment; the small ion concentrations decreased by about 30% while large ion concentrations increased by up to 100%. We identified two phenomena that have a bearing on ion-induced nucleation. Firstly, the fraction of particles that were charged consistently decreased during PF events and rarely exceeded the equilibrium value, suggesting that the formation process was not significantly influenced by an ion-induced mechanism. Secondly, small ion concentrations were higher in the pre-dawn hours of PF event days than on other days, while the fraction of clusters that were charged often showed an increase immediately prior to a PF event, both observations supporting an ion-induced mechanism of PF. This study serves as basis for future work explaining these observations.

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Section: Charged Fractionssupporting

confidence: 81%

Section: Introductionmentioning

confidence: 99%

Charging State of Aerosols during Particle Formation Events in an Urban Environment and Its Implications for Ion-Induced Nucleation

Jayaratne

Ling

Morawska

2016

Aerosol Air Qual. Res.

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“…High particle concentrations observed in the clean marine boundary layer and clean continental sites cannot be explained by the homogeneous binary nucleation process alone (Covert et al , ; Weber et al , ). Several processes such as homogeneous ternary nucleation (Kulmala et al , ; Merikanto et al , ), ion nucleation clusters (Lee et al , ; Lovejoy et al , ; Eisele et al , ; Kanawade and Tripathi, ; Lida et al , ; Yu et al , ; Yli‐Juuti et al , ; Gagné et al , ; Yu and Turco, ; Gonser et al , ), activation of neutral clusters (e.g. Kulmala et al , ) and the effect of organic gases on nucleation (O'Dowd et al , ; Zhang et al , ; Tunved et al , ; Laaksonen et al , ; Metzger et al , ) have been proposed to explain high rates of particle formation.…”

Section: Introductionmentioning

confidence: 99%

“…Hõrrak et al 's () observations of bursts of intermediate ions in air support the ion‐induced nucleation explanation. Further, simultaneous measurements of ions and aerosol show increase of condensation nuclei associated with increased rate of ionization (Harrison and Aplin, ; Hirsikko et al , ; Vartiainen et al , ; Gonser et al , ). Kulmala et al () and Modgil et al () showed that high concentration of ultrafine condensation nuclei in a burst event agreed with their model calculations assuming ion‐mediated nucleation of H 2 SO 4 ‐ H 2 O aerosols.…”

Section: Introductionmentioning

confidence: 99%

Atmospheric ions and new particle formation events at a tropical location, Pune, India

Kamra

Siingh

Gautam

et al. 2015

Quart J Royal Meteoro Soc

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Characteristics of small, intermediate and large ions and nanometre particles, and the influences of environmental conditions and local topography on the interactions of these ions and particles in the size range of 3.85-47.8 nm diameter are studied during new particle formation (NPF) events observed at Pune, India from 20 March to 23 May 2012. During the NPF events, the formation rate of 5 nm particles ranged from 3.5 to 13.9 cm −3 s −1 and growth rates of both positive and negative ions were greater than those of neutral particles. Total ion concentrations in this size range were approximately double on event days than on non-event days. The NPF events were generally preceded by 2-3 h periods of enhanced concentration of ions and aerosols (PECIA) which are associated with katabatic winds from the surrounding hill-slopes at our site. During PECIA, ions ≤8 nm diameter grew faster and attained mode diameters greater than those of neutral particles. PECIA provided the ions of sub-8 nm diameter and dramatically reduced the condensation sinks and thus contributed to the development of conditions conducive for NPF. During PECIA, total concentrations of the ions and particles become almost equal and the Boltzmann charge distribution breaks down. During NPF events, mode diameters of the ions and particles first steeply decreased accompanied by a steep increase in condensation sink but later gradually increased at identical rates.Observations of charging ratio of 3-4 nm particles being higher than the charge equilibrium value and non-observation of charge equilibrium for >5 nm ions and particles indicate occurrence of ion nucleation and/or advection during the PECIA.

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“…This feature may affect calculated particle GRs in cases where coagulation losses give a significant contribution to the apparent particle GR (see equation (2)). Finally, the GR of charged particles might be affected by ion-ion recombination and ion-aerosol attachment (Gonser et al 2014). Only few field studies have compared the observed GRs of charged particles to those of the total particle population .…”

Section: Formation and Grs Of Charged Particlesmentioning

confidence: 99%

Atmospheric new particle formation and growth: review of field observations

Kerminen

Chen

Vakkari

et al. 2018

Environ. Res. Lett.

442

405

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This review focuses on the observed characteristics of atmospheric new particle formation (NPF) in different environments of the global troposphere. After a short introduction, we will present a theoretical background that discusses the methods used to analyze measurement data on atmospheric NPF and the associated terminology. We will update on our current understanding of regional NPF, i.e. NPF taking simultaneously place over large spatial scales, and complement that with a full review on reported NPF and growth rates during regional NPF events. We will shortly review atmospheric NPF taking place at sub-regional scales. Since the growth of newly-formed particles into larger sizes is of great current interest, we will briefly discuss our observation-based understanding on which gaseous compounds contribute to the growth of newly-formed particles, and what implications this will have on atmospheric cloud condensation nuclei formation. We will finish the review with a summary of our main findings and future outlook that outlines the remaining research questions and needs for additional measurements.

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Ion – particle interactions during particle formation and growth at a coniferous forest site in central Europe

Cited by 20 publications

References 43 publications

Charging State of Aerosols during Particle Formation Events in an Urban Environment and Its Implications for Ion-Induced Nucleation

Charging State of Aerosols during Particle Formation Events in an Urban Environment and Its Implications for Ion-Induced Nucleation

Atmospheric ions and new particle formation events at a tropical location, Pune, India

Atmospheric new particle formation and growth: review of field observations

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