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Role of sulphuric acid, ammonia and galactic cosmic rays in atmospheric aerosol nucleation
Atmospheric aerosols exert an important influence on climate1 through their effects on stratiform cloud albedo and lifetime2 and the invigoration of convective storms3. Model calculations suggest that almost half of the global cloud condensation nuclei in the atmospheric boundary layer may originate...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2011
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1038/nature10343 http://cds.cern.ch/record/1378073 |
| _version_ | 1780922992138649600 |
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| author | Kirkby, Jasper Curtius, Joachim Almeida, João Dunne, Eimear Duplissy, Jonathan Ehrhart, Sebastian Franchin, Alessandro Gagné, Stéphanie Ickes, Luisa Kürten, Andreas Kupc, Agnieszka Metzger, Axel Riccobono, Francesco Rondo, Linda Schobesberger, Siegfried Tsagkogeorgas, Georgios Wimmer, Daniela Amorim, Antonio Bianchi, Federico Breitenlechner, Martin David, André Dommen, Josef Downard, Andrew Ehn, Mikael Flagan, Richard C Haider, Stefan Hansel, Armin Hauser, Daniel Jud, Werner Junninen, Heikki Kreissl, Fabian Kvashin, Alexander Laaksonen, Ari Lehtipalo, Katrianne Lima, Jorge Lovejoy, Edward R Makhmutov, Vladimir Mathot, Serge Mikkilä, Jyri Minginette, Pierre Mogo, Sandra Nieminen, Tuomo Onnela, Antti Pereira, Paulo Petäjä, Tuukka Schnitzhofer, Ralf Seinfeld, John H Sipilä, Mikko Stozhkov, Yuri Stratmann, Frank Tomé, Antonio Vanhanen, Joonas Viisanen, Yrjo Vrtala, Aron Wagner, Paul E Walther, Hansueli Weingartner, Ernest Wex, Heike Winkler, Paul M Carslaw, Kenneth S Worsnop, Douglas R Baltensperger, Urs Kulmala, Markku |
| author_facet | Kirkby, Jasper Curtius, Joachim Almeida, João Dunne, Eimear Duplissy, Jonathan Ehrhart, Sebastian Franchin, Alessandro Gagné, Stéphanie Ickes, Luisa Kürten, Andreas Kupc, Agnieszka Metzger, Axel Riccobono, Francesco Rondo, Linda Schobesberger, Siegfried Tsagkogeorgas, Georgios Wimmer, Daniela Amorim, Antonio Bianchi, Federico Breitenlechner, Martin David, André Dommen, Josef Downard, Andrew Ehn, Mikael Flagan, Richard C Haider, Stefan Hansel, Armin Hauser, Daniel Jud, Werner Junninen, Heikki Kreissl, Fabian Kvashin, Alexander Laaksonen, Ari Lehtipalo, Katrianne Lima, Jorge Lovejoy, Edward R Makhmutov, Vladimir Mathot, Serge Mikkilä, Jyri Minginette, Pierre Mogo, Sandra Nieminen, Tuomo Onnela, Antti Pereira, Paulo Petäjä, Tuukka Schnitzhofer, Ralf Seinfeld, John H Sipilä, Mikko Stozhkov, Yuri Stratmann, Frank Tomé, Antonio Vanhanen, Joonas Viisanen, Yrjo Vrtala, Aron Wagner, Paul E Walther, Hansueli Weingartner, Ernest Wex, Heike Winkler, Paul M Carslaw, Kenneth S Worsnop, Douglas R Baltensperger, Urs Kulmala, Markku |
| author_sort | Kirkby, Jasper |
| collection | CERN |
| description | Atmospheric aerosols exert an important influence on climate1 through their effects on stratiform cloud albedo and lifetime2 and the invigoration of convective storms3. Model calculations suggest that almost half of the global cloud condensation nuclei in the atmospheric boundary layer may originate from the nucleation of aerosols from trace condensable vapours4, although the sensitivity of the number of cloud condensation nuclei to changes of nucleation rate may be small5, 6. Despite extensive research, fundamental questions remain about the nucleation rate of sulphuric acid particles and the mechanisms responsible, including the roles of galactic cosmic rays and other chemical species such as ammonia7. Here we present the first results from the CLOUD experiment at CERN. We find that atmospherically relevant ammonia mixing ratios of 100 parts per trillion by volume, or less, increase the nucleation rate of sulphuric acid particles more than 100–1,000-fold. Time-resolved molecular measurements reveal that nucleation proceeds by a base-stabilization mechanism involving the stepwise accretion of ammonia molecules. Ions increase the nucleation rate by an additional factor of between two and more than ten at ground-level galactic-cosmic-ray intensities, provided that the nucleation rate lies below the limiting ion-pair production rate. We find that ion-induced binary nucleation of H2SO4–H2O can occur in the mid-troposphere but is negligible in the boundary layer. However, even with the large enhancements in rate due to ammonia and ions, atmospheric concentrations of ammonia and sulphuric acid are insufficient to account for observed boundary-layer nucleation. |
| id | cern-1378073 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2011 |
| record_format | invenio |
| spelling | cern-13780732019-09-30T06:29:59Zdoi:10.1038/nature10343http://cds.cern.ch/record/1378073engKirkby, JasperCurtius, JoachimAlmeida, JoãoDunne, EimearDuplissy, JonathanEhrhart, SebastianFranchin, AlessandroGagné, StéphanieIckes, LuisaKürten, AndreasKupc, AgnieszkaMetzger, AxelRiccobono, FrancescoRondo, LindaSchobesberger, SiegfriedTsagkogeorgas, GeorgiosWimmer, DanielaAmorim, AntonioBianchi, FedericoBreitenlechner, MartinDavid, AndréDommen, JosefDownard, AndrewEhn, MikaelFlagan, Richard CHaider, StefanHansel, ArminHauser, DanielJud, WernerJunninen, HeikkiKreissl, FabianKvashin, AlexanderLaaksonen, AriLehtipalo, KatrianneLima, JorgeLovejoy, Edward RMakhmutov, VladimirMathot, SergeMikkilä, JyriMinginette, PierreMogo, SandraNieminen, TuomoOnnela, AnttiPereira, PauloPetäjä, TuukkaSchnitzhofer, RalfSeinfeld, John HSipilä, MikkoStozhkov, YuriStratmann, FrankTomé, AntonioVanhanen, JoonasViisanen, YrjoVrtala, AronWagner, Paul EWalther, HansueliWeingartner, ErnestWex, HeikeWinkler, Paul MCarslaw, Kenneth SWorsnop, Douglas RBaltensperger, UrsKulmala, MarkkuRole of sulphuric acid, ammonia and galactic cosmic rays in atmospheric aerosol nucleationAstrophysics and AstronomyAtmospheric aerosols exert an important influence on climate1 through their effects on stratiform cloud albedo and lifetime2 and the invigoration of convective storms3. Model calculations suggest that almost half of the global cloud condensation nuclei in the atmospheric boundary layer may originate from the nucleation of aerosols from trace condensable vapours4, although the sensitivity of the number of cloud condensation nuclei to changes of nucleation rate may be small5, 6. Despite extensive research, fundamental questions remain about the nucleation rate of sulphuric acid particles and the mechanisms responsible, including the roles of galactic cosmic rays and other chemical species such as ammonia7. Here we present the first results from the CLOUD experiment at CERN. We find that atmospherically relevant ammonia mixing ratios of 100 parts per trillion by volume, or less, increase the nucleation rate of sulphuric acid particles more than 100–1,000-fold. Time-resolved molecular measurements reveal that nucleation proceeds by a base-stabilization mechanism involving the stepwise accretion of ammonia molecules. Ions increase the nucleation rate by an additional factor of between two and more than ten at ground-level galactic-cosmic-ray intensities, provided that the nucleation rate lies below the limiting ion-pair production rate. We find that ion-induced binary nucleation of H2SO4–H2O can occur in the mid-troposphere but is negligible in the boundary layer. However, even with the large enhancements in rate due to ammonia and ions, atmospheric concentrations of ammonia and sulphuric acid are insufficient to account for observed boundary-layer nucleation.oai:cds.cern.ch:13780732011 |
| spellingShingle | Astrophysics and Astronomy Kirkby, Jasper Curtius, Joachim Almeida, João Dunne, Eimear Duplissy, Jonathan Ehrhart, Sebastian Franchin, Alessandro Gagné, Stéphanie Ickes, Luisa Kürten, Andreas Kupc, Agnieszka Metzger, Axel Riccobono, Francesco Rondo, Linda Schobesberger, Siegfried Tsagkogeorgas, Georgios Wimmer, Daniela Amorim, Antonio Bianchi, Federico Breitenlechner, Martin David, André Dommen, Josef Downard, Andrew Ehn, Mikael Flagan, Richard C Haider, Stefan Hansel, Armin Hauser, Daniel Jud, Werner Junninen, Heikki Kreissl, Fabian Kvashin, Alexander Laaksonen, Ari Lehtipalo, Katrianne Lima, Jorge Lovejoy, Edward R Makhmutov, Vladimir Mathot, Serge Mikkilä, Jyri Minginette, Pierre Mogo, Sandra Nieminen, Tuomo Onnela, Antti Pereira, Paulo Petäjä, Tuukka Schnitzhofer, Ralf Seinfeld, John H Sipilä, Mikko Stozhkov, Yuri Stratmann, Frank Tomé, Antonio Vanhanen, Joonas Viisanen, Yrjo Vrtala, Aron Wagner, Paul E Walther, Hansueli Weingartner, Ernest Wex, Heike Winkler, Paul M Carslaw, Kenneth S Worsnop, Douglas R Baltensperger, Urs Kulmala, Markku Role of sulphuric acid, ammonia and galactic cosmic rays in atmospheric aerosol nucleation |
| title | Role of sulphuric acid, ammonia and galactic cosmic rays in atmospheric aerosol nucleation |
| title_full | Role of sulphuric acid, ammonia and galactic cosmic rays in atmospheric aerosol nucleation |
| title_fullStr | Role of sulphuric acid, ammonia and galactic cosmic rays in atmospheric aerosol nucleation |
| title_full_unstemmed | Role of sulphuric acid, ammonia and galactic cosmic rays in atmospheric aerosol nucleation |
| title_short | Role of sulphuric acid, ammonia and galactic cosmic rays in atmospheric aerosol nucleation |
| title_sort | role of sulphuric acid, ammonia and galactic cosmic rays in atmospheric aerosol nucleation |
| topic | Astrophysics and Astronomy |
| url | https://dx.doi.org/10.1038/nature10343 http://cds.cern.ch/record/1378073 |
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