Stable sulphate clusters as a source of new atmospheric particles

Kulmala, Markku; Pirjola, Liisa; Mäkelä, Jyrki M.

doi:10.1038/35003550

Cited by 616 publications

(460 citation statements)

References 33 publications

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“…[13] It has been suggested that 1 nm is the size of a thermodynamically stable clusters, which under certain conditions grow to detectable sizes [Kulmala et al, 2000]. For this reason, the approximate starting time of formation of 1-nm particles was calculated.…”

Section: Particle Formation Rate and Growth Ratementioning

confidence: 99%

Observations of new particle formation and size distributions at two different heights and surroundings in subarctic area in northern Finland

et al. 2003

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[1] Two years of continuous aerosol particle number size distribution measurements have been carried out in a subarctic area in northern Finland. Measurements have been made at two different heights (340 m and 560 m above sea level) and surroundings (inside a forest and at the top of a fjeld) to find out the effects of local-scale conditions on new particle formation and growth as well as on the size distribution of aerosol particles. Measured aerosol particle size range was 7-500 nm. Average total number concentration in the year 2001 was 700 cm À3 at the higher and 870 cm À3 at the lower site. One-day averages varied between 40 and 3500 cm À3 . Seasonal variation of total concentration was observed to be similar at both stations, high values in spring and summer and low values in winter. Also, modal concentrations were compared. Diurnal variation of total particle concentration was similar at both sites. In total, 65 new particle formation events were recorded during the measuring period. The largest number of events occurred in April and May. Particle formation events started between 0825 and 1550 (UTC plus 2 hours), and the calculated starting times of 1 nm particle formation (nucleation) varied between 0450 and 1420. The particle growth rate was found to be 1.4-8.2 nm h À1 , and the formation rate of 7 nm particles varied from 0.06 to 0.40 particles cm À3 s À1 . Starting times of the formation events at the two stations had maximum difference of 30 min, and it could not be explained by wind direction and speed. One possible explanation for the time difference is vertical movement of air masses caused by turbulence. Solar radiation was observed to be one key factor needed for particle formation. Wind direction was mostly between west and north on formation days, indicating polar or arctic air masses.

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Section: Particle Formation Rate and Growth Ratementioning

confidence: 99%

Observations of new particle formation and size distributions at two different heights and surroundings in subarctic area in northern Finland

et al. 2003

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“…For instance, the number concentrations of atmospheric particles affects the microphysics of clouds, which may affect their rainfall, lifetime and optical properties and in turn, global climate (Penner et al, 2001;Twomey, 1977). In addition to mechanical and combustion processes, new particles can be created from the nucleation of gas phase species (Kulmala et al, 2000;Kulmala, 2003). These events have been observed in a variety of environments worldwide and may be a significant factor in the repopulation of particle numbers lost through deposition.…”

Section: Introductionmentioning

confidence: 99%

“…It is thought that in this particular environment, the biogenic VOCs and their oxidation products are responsible for the growth of the particles, although the initial formation is thought to happen though the nucleation of sulphuric acid with water and/or ammonia (Kulmala et al, 2000). For a detailed study into the initial nucleation and early stages of growth during this study, the reader is directed to Kulmala et al (2004a).…”

Section: Introductionmentioning

confidence: 99%

Size and composition measurements of background aerosol and new particle growth in a Finnish forest during QUEST 2 using an Aerodyne Aerosol Mass Spectrometer

et al. 2006

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Abstract. The study of the growth of nucleation-mode particles is important, as this prevents their loss through diffusion and allows them to reach sizes where they may become effective cloud condensation nuclei. Hyytiälä, a forested site in southern Finland, frequently experiences particle nucleation events during the spring and autumn, where particles first appear during the morning and continue to grow for several hours afterwards. As part of the QUEST 2 intensive field campaign during March and April 2003, an Aerodyne Aerosol Mass Spectrometer (AMS) was deployed alongside other aerosol instrumentation to study the particulate composition and dynamics of growth events and characterise the background aerosol. Despite the small mass concentrations, the AMS was able to distinguish the grown particles in the <100 nm regime several hours after an event and confirm that the particles were principally organic in composition. The AMS was also able to derive a mass spectral fingerprint for the organic species present, and found that it was consistent between events and independent of the mean particle diameter during non-polluted cases, implying the same species were also condensing onto the accumulation mode. The results were compared with those from offline analyses such as GC-MS and were consistent with the hypothesis that the main components were alkanes from plant waxes and the oxidation products of terpenes.Correspondence to:

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“…While conditions necessary for homogeneous nucleation do occur in the atmosphere, observations suggest that in some cases, new particles form more readily than models can predict for the homogeneous nucleation of sulfuric acid and water alone [Weber et al, 1995[Weber et al, , 1997. Thus other species, including ammonia and organic vapors, may participate in nucleation of new particles in some parts of the atmosphere [e.g., Ball et al, 1999;Kulmala et al, 2000].…”

Section: Introductionmentioning

confidence: 99%

Deep convection as a source of new particles in the midlatitude upper troposphere

et al. 2002

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[1] A case study of new particle formation in the region downwind of a mesoscale convective system stretching across much of the central United States is presented. Airborne measurements were made of condensation nuclei (CN), cloud particle surface area, water vapor, and other gases. CN concentrations were greatly enhanced above and downwind of the cirrus anvil, with maximum concentrations of 45,000 per standard cm 3 . Volatility and electron microscope measurements indicated that most of the particles were likely to be small sulfate particles. The enhancement extended over at least a 600-km region. Multivariate statistical analysis revealed that high CN concentrations were associated with surface tracers, as well as convective elements. Convection apparently brings gas-phase particle precursors from the surface to the storm outflow region, where particle nucleation is favored by the extremely low temperatures. Simple calculations showed that deep convective systems may contribute to a substantial portion of the background aerosol in the upper troposphere at midlatitudes.

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Stable sulphate clusters as a source of new atmospheric particles

Cited by 616 publications

References 33 publications

Observations of new particle formation and size distributions at two different heights and surroundings in subarctic area in northern Finland

Observations of new particle formation and size distributions at two different heights and surroundings in subarctic area in northern Finland

Size and composition measurements of background aerosol and new particle growth in a Finnish forest during QUEST 2 using an Aerodyne Aerosol Mass Spectrometer

Deep convection as a source of new particles in the midlatitude upper troposphere

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