Data from: Expanding Single Particle Mass Spectrometer Analyses for the Identification of Microbe Signatures in Sea Spray Aerosols
|Scope And Content
A readme file (.txt) with contact information and also explaining the data and organization for the data (.txt) files.
|Scope And Content
Data is held in .txt files with each row representing data for a single particle. Positive and negative mass spectra and particle metadata are provided. To minimize file size these files contain data for 1 out of every 10 particles utilized in "Expanding Single Particle Mass Spectrometer Analyses for the Identification of Microbe Signatures in Sea Spray Aerosols".
- Cite This Work
Sultana, Camille M.; Al-Mashat, Hashim; Prather, Kimberly A. (2017). Data from: Expanding Single Particle Mass Spectrometer Analyses for the Identification of Microbe Signatures in Sea Spray Aerosols. In Center for Aerosol Impacts on Chemistry of the Environment (CAICE). UC San Diego Library Digital Collections. https://doi.org/10.6075/J03R0R1H
Publication abstract: Ocean-derived microbes in sea spray aerosols (SSA) have the potential to influence climate and weather by acting as ice nucleating particles in clouds. Single particle mass spectrometers (SPMS), which generate in situ single particle composition data, are excellent tools for characterizing aerosols under changing environmental conditions as they can provide high temporal resolution and require no sample preparation. While SPMS have proven capable of detecting microbes, these instruments have never been utilized to definitively identify aerosolized microbes in ambient sea spray aerosols. In this study, an aerosol time-of-flight mass spectrometer was used to analyze laboratory generated SSA produced from natural seawater in a marine aerosol reference tank. We present the first description of a population of biological SSA mass spectra (BioSS), which closely match the ion signatures observed in previous terrestrial microbe studies. The fraction of BioSS dramatically increased in the largest supermicron particles, consistent with field and laboratory measurements of microbes ejected by bubble bursting, further supporting the assignment of BioSS mass spectra as microbes. Finally, as supported by analysis of inorganic ion signals, we propose that dry BioSS particles have heterogeneous structures, with microbes adhered to sodium chloride nodules surrounded by magnesium-enriched coatings. Consistent with this structure, chlorine-containing ion markers were ubiquitous in BioSS spectra and identified as possible tracers for distinguishing recently aerosolized marine from terrestrial microbes.
- Scope And Content
This package contains an explanatory readme file and the code and the data used to generate "Expanding Single Particle Mass Spectrometer Analyses for the Identification of Microbe Signatures in Sea Spray Aerosols".
- Creation Date
- Time period of project: 2013-09-01 to 2017-08-01
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- Related Resource
- Sultana, C.M.; Al-Mashat, H.; Prather, K.A. Expanding Single Particle Mass Spectrometer Analyses for the Identification of Microbe Signatures in Sea Spray Aerosols. Analytical Chemistry. (2017). 89, 10162-10170. https://doi.org/10.1021/acs.analchem.7b00933
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