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Substantial Seasonal Contribution of Observed Biogenic Sulfate Particles to Cloud Condensation Nuclei

Biogenic sources contribute to cloud condensation nuclei (CCN) in the clean marine atmosphere, but few measurements exist to constrain climate model simulations of their importance. The chemical composition of individual atmospheric aerosol particles showed two types of sulfate-containing particles...

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Detalles Bibliográficos
Autores principales: Sanchez, Kevin J., Chen, Chia-Li, Russell, Lynn M., Betha, Raghu, Liu, Jun, Price, Derek J., Massoli, Paola, Ziemba, Luke D., Crosbie, Ewan C., Moore, Richard H., Müller, Markus, Schiller, Sven A., Wisthaler, Armin, Lee, Alex K. Y., Quinn, Patricia K., Bates, Timothy S., Porter, Jack, Bell, Thomas G., Saltzman, Eric S., Vaillancourt, Robert D., Behrenfeld, Mike J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2018
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5818515/
https://www.ncbi.nlm.nih.gov/pubmed/29459666
http://dx.doi.org/10.1038/s41598-018-21590-9
Descripción
Sumario:Biogenic sources contribute to cloud condensation nuclei (CCN) in the clean marine atmosphere, but few measurements exist to constrain climate model simulations of their importance. The chemical composition of individual atmospheric aerosol particles showed two types of sulfate-containing particles in clean marine air masses in addition to mass-based Estimated Salt particles. Both types of sulfate particles lack combustion tracers and correlate, for some conditions, to atmospheric or seawater dimethyl sulfide (DMS) concentrations, which means their source was largely biogenic. The first type is identified as New Sulfate because their large sulfate mass fraction (63% sulfate) and association with entrainment conditions means they could have formed by nucleation in the free troposphere. The second type is Added Sulfate particles (38% sulfate), because they are preexisting particles onto which additional sulfate condensed. New Sulfate particles accounted for 31% (7 cm(−3)) and 33% (36 cm(−3)) CCN at 0.1% supersaturation in late-autumn and late-spring, respectively, whereas sea spray provided 55% (13 cm(−3)) in late-autumn but only 4% (4 cm(−3)) in late-spring. Our results show a clear seasonal difference in the marine CCN budget, which illustrates how important phytoplankton-produced DMS emissions are for CCN in the North Atlantic.