Novel insights on new particle formation derived from a pan-european observing system

M. Dall'Osto; D. C.S. Beddows; A. Asmi; L. Poulain; L. Hao; E. Freney; J. D. Allan; M. Canagaratna; M. Crippa; F. Bianchi; G. De Leeuw; A. Eriksson; E. Swietlicki; H. C. Hansson; J. S. Henzing; C. Granier; K. Zemankova; P. Laj; T. Onasch; A. Prevot; J. P. Putaud; K. Sellegri; M. Vidal; A. Virtanen; R. Simo; D. Worsnop; C. O'Dowd; M. Kulmala; Roy M. Harrison

doi:10.1038/s41598-017-17343-9

Novel insights on new particle formation derived from a pan-european observing system

M. Dall'Osto^*, D. C.S. Beddows, A. Asmi, L. Poulain, L. Hao, E. Freney, J. D. Allan, M. Canagaratna, M. Crippa, F. Bianchi, G. De Leeuw, A. Eriksson, E. Swietlicki, H. C. Hansson, J. S. Henzing, C. Granier, K. Zemankova, P. Laj, T. Onasch, A. PrevotJ. P. Putaud, K. Sellegri, M. Vidal, A. Virtanen, R. Simo, D. Worsnop, C. O'Dowd, M. Kulmala, Roy M. Harrison

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

The formation of new atmospheric particles involves an initial step forming stable clusters less than a nanometre in size (<~1 nm), followed by growth into quasi-stable aerosol particles a few nanometres (~1-10 nm) and larger (>~10 nm). Although at times, the same species can be responsible for both processes, it is thought that more generally each step comprises differing chemical contributors. Here, we present a novel analysis of measurements from a unique multi-station ground-based observing system which reveals new insights into continental-scale patterns associated with new particle formation. Statistical cluster analysis of this unique 2-year multi-station dataset comprising size distribution and chemical composition reveals that across Europe, there are different major seasonal trends depending on geographical location, concomitant with diversity in nucleating species while it seems that the growth phase is dominated by organic aerosol formation. The diversity and seasonality of these events requires an advanced observing system to elucidate the key processes and species driving particle formation, along with detecting continental scale changes in aerosol formation into the future.

Original language	English
Article number	1482
Journal	Scientific Reports
Volume	8
Issue number	1
Early online date	24 Jan 2018
DOIs	https://doi.org/10.1038/s41598-017-17343-9
Publication status	Published - 2018

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Dall'Osto, M., Beddows, D. C. S., Asmi, A., Poulain, L., Hao, L., Freney, E., Allan, J. D., Canagaratna, M., Crippa, M., Bianchi, F., De Leeuw, G., Eriksson, A., Swietlicki, E., Hansson, H. C., Henzing, J. S., Granier, C., Zemankova, K., Laj, P., Onasch, T., ... Harrison, R. M. (2018). Novel insights on new particle formation derived from a pan-european observing system. Scientific Reports, 8(1), Article 1482. https://doi.org/10.1038/s41598-017-17343-9

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title = "Novel insights on new particle formation derived from a pan-european observing system",

abstract = "The formation of new atmospheric particles involves an initial step forming stable clusters less than a nanometre in size (<~1 nm), followed by growth into quasi-stable aerosol particles a few nanometres (~1-10 nm) and larger (>~10 nm). Although at times, the same species can be responsible for both processes, it is thought that more generally each step comprises differing chemical contributors. Here, we present a novel analysis of measurements from a unique multi-station ground-based observing system which reveals new insights into continental-scale patterns associated with new particle formation. Statistical cluster analysis of this unique 2-year multi-station dataset comprising size distribution and chemical composition reveals that across Europe, there are different major seasonal trends depending on geographical location, concomitant with diversity in nucleating species while it seems that the growth phase is dominated by organic aerosol formation. The diversity and seasonality of these events requires an advanced observing system to elucidate the key processes and species driving particle formation, along with detecting continental scale changes in aerosol formation into the future.",

author = "M. Dall'Osto and Beddows, {D. C.S.} and A. Asmi and L. Poulain and L. Hao and E. Freney and Allan, {J. D.} and M. Canagaratna and M. Crippa and F. Bianchi and {De Leeuw}, G. and A. Eriksson and E. Swietlicki and Hansson, {H. C.} and Henzing, {J. S.} and C. Granier and K. Zemankova and P. Laj and T. Onasch and A. Prevot and Putaud, {J. P.} and K. Sellegri and M. Vidal and A. Virtanen and R. Simo and D. Worsnop and C. O'Dowd and M. Kulmala and Harrison, {Roy M.}",

year = "2018",

doi = "10.1038/s41598-017-17343-9",

language = "English",

volume = "8",

journal = "Scientific Reports",

issn = "2045-2322",

publisher = "Nature Research",

number = "1",

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Dall'Osto, M, Beddows, DCS, Asmi, A, Poulain, L, Hao, L, Freney, E, Allan, JD, Canagaratna, M, Crippa, M, Bianchi, F, De Leeuw, G, Eriksson, A, Swietlicki, E, Hansson, HC, Henzing, JS, Granier, C, Zemankova, K, Laj, P, Onasch, T, Prevot, A, Putaud, JP, Sellegri, K, Vidal, M, Virtanen, A, Simo, R, Worsnop, D, O'Dowd, C, Kulmala, M & Harrison, RM 2018, 'Novel insights on new particle formation derived from a pan-european observing system', Scientific Reports, vol. 8, no. 1, 1482. https://doi.org/10.1038/s41598-017-17343-9

TY - JOUR

T1 - Novel insights on new particle formation derived from a pan-european observing system

AU - Dall'Osto, M.

AU - Beddows, D. C.S.

AU - Asmi, A.

AU - Poulain, L.

AU - Hao, L.

AU - Freney, E.

AU - Allan, J. D.

AU - Canagaratna, M.

AU - Crippa, M.

AU - Bianchi, F.

AU - De Leeuw, G.

AU - Eriksson, A.

AU - Swietlicki, E.

AU - Hansson, H. C.

AU - Henzing, J. S.

AU - Granier, C.

AU - Zemankova, K.

AU - Laj, P.

AU - Onasch, T.

AU - Prevot, A.

AU - Putaud, J. P.

AU - Sellegri, K.

AU - Vidal, M.

AU - Virtanen, A.

AU - Simo, R.

AU - Worsnop, D.

AU - O'Dowd, C.

AU - Kulmala, M.

AU - Harrison, Roy M.

PY - 2018

Y1 - 2018

N2 - The formation of new atmospheric particles involves an initial step forming stable clusters less than a nanometre in size (<~1 nm), followed by growth into quasi-stable aerosol particles a few nanometres (~1-10 nm) and larger (>~10 nm). Although at times, the same species can be responsible for both processes, it is thought that more generally each step comprises differing chemical contributors. Here, we present a novel analysis of measurements from a unique multi-station ground-based observing system which reveals new insights into continental-scale patterns associated with new particle formation. Statistical cluster analysis of this unique 2-year multi-station dataset comprising size distribution and chemical composition reveals that across Europe, there are different major seasonal trends depending on geographical location, concomitant with diversity in nucleating species while it seems that the growth phase is dominated by organic aerosol formation. The diversity and seasonality of these events requires an advanced observing system to elucidate the key processes and species driving particle formation, along with detecting continental scale changes in aerosol formation into the future.

AB - The formation of new atmospheric particles involves an initial step forming stable clusters less than a nanometre in size (<~1 nm), followed by growth into quasi-stable aerosol particles a few nanometres (~1-10 nm) and larger (>~10 nm). Although at times, the same species can be responsible for both processes, it is thought that more generally each step comprises differing chemical contributors. Here, we present a novel analysis of measurements from a unique multi-station ground-based observing system which reveals new insights into continental-scale patterns associated with new particle formation. Statistical cluster analysis of this unique 2-year multi-station dataset comprising size distribution and chemical composition reveals that across Europe, there are different major seasonal trends depending on geographical location, concomitant with diversity in nucleating species while it seems that the growth phase is dominated by organic aerosol formation. The diversity and seasonality of these events requires an advanced observing system to elucidate the key processes and species driving particle formation, along with detecting continental scale changes in aerosol formation into the future.

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U2 - 10.1038/s41598-017-17343-9

DO - 10.1038/s41598-017-17343-9

M3 - Article

AN - SCOPUS:85041193924

SN - 2045-2322

VL - 8

JO - Scientific Reports

JF - Scientific Reports

IS - 1

M1 - 1482

ER -

Novel insights on new particle formation derived from a pan-european observing system

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