| Literature DB >> 26196268 |
Christopher Lee1,2, Camille M Sultana1,2, Douglas B Collins1,2, Mitchell V Santander1,2, Jessica L Axson1,2, Francesca Malfatti1,2, Gavin C Cornwell1,2, Joshua R Grandquist1,2, Grant B Deane1,2, M Dale Stokes1,2, Farooq Azam1,2, Vicki H Grassian1,2, Kimberly A Prather1,2.
Abstract
Sea spray aerosol (SSA) particles represent one of the most abundant surfaces available for heterogeneous reactions to occur upon and thus profoundly alter the composition of the troposphere. In an effort to better understand tropospheric heterogeneous reaction processes, fundamental laboratory studies must be able to accurately reproduce the chemical complexity of SSA. Here we describe a new approach that uses microbial processes to control the composition of seawater and SSA particle composition. By inducing a phytoplankton bloom, we are able to create dynamic ecosystem interactions between marine microorganisms, which serve to alter the organic mixtures present in seawater. Using this controlled approach, changes in seawater composition become reflected in the chemical composition of SSA particles 4 to 10 d after the peak in chlorophyll-a. This approach for producing and varying the chemical complexity of a dominant tropospheric aerosol provides the foundation for further investigations of the physical and chemical properties of realistic SSA particles under controlled conditions.Entities:
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Year: 2015 PMID: 26196268 DOI: 10.1021/acs.jpca.5b03488
Source DB: PubMed Journal: J Phys Chem A ISSN: 1089-5639 Impact factor: 2.781