Stable sulfur isotope measurements to trace the fate of SO2 in the Athabasca oil sands region

Stable sulfur isotope measurements to trace the fate of SO2 in the Athabasca oil sands region

Concentrations andδ34S values for SO2 and size-segregated sulfate aerosols were determined for air monitoring station 13 (AMS 13) at Fort MacKay in the Athabasca oil sands region, northeastern Alberta, Canada as part of the Joint Canada-Alberta Implementation Plan for Oil Sands Monitoring (JOSM) cam...

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Veröffentlicht in:Atmospheric chemistry and physics 2018-06, Vol.18 (11), p.7757-7780
Hauptverfasser: Amiri, Neda, Ghahremaninezhad, Roghayeh, Rempillo, Ofelia, Tokarek, Travis W, Odame-Ankrah, Charles A, Osthoff, Hans D, Ann-Lise, Norman
Format: Artikel
Sprache:eng
Schlagworte:
Aerosols
Air monitoring
Conversion ratio
Correlation
Filters
Fractionation
Ground level
Heavy metals
Hydrogen peroxide
Ionization
Iron
Isotope fractionation
Isotopes
Limonene
Manganese
Mass spectrometry
Metal ions
Oil sands
Organic chemistry
Oxidation
Secondary aerosols
Sulfate aerosols
Sulfates
Sulfur
Sulfur dioxide
Sulfur isotopes
Sulfur sources
Sulphur
Sulphur dioxide
Tracers
Transition metals
Vapor phases
α-Pinene
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Zusammenfassung:Concentrations andδ34S values for SO2 and size-segregated sulfate aerosols were determined for air monitoring station 13 (AMS 13) at Fort MacKay in the Athabasca oil sands region, northeastern Alberta, Canada as part of the Joint Canada-Alberta Implementation Plan for Oil Sands Monitoring (JOSM) campaign from 13 August to 5 September 2013. Sulfate aerosols and SO2 were collected on filters using a high-volume sampler, with 12 or 24 h time intervals.Sulfur dioxide (SO2) enriched in 34S was exhausted by a chemical ionization mass spectrometer (CIMS) operated at the measurement site and affected isotope samples for a portion of the sampling period. It was realized that this could be a useful tracer and samples collected were divided into two sets. The first set includes periods when the CIMS was not running (CIMS-OFF) and no 34SO2 was emitted. The second set is for periods when the CIMS was running (CIMS-ON) and 34SO2 was expected to affect SO2 and sulfate high-volume filter samples.δ34S values for sulfate aerosols with diameter D>0.49 µm during CIMS-OFF periods (no tracer 34SO2 present) indicate the sulfur isotope characteristics of secondary sulfate in the region. Such aerosols had δ34S values that were isotopically lighter (down to-5.3 ‰) than what was expected according to potential sulfur sources in the Athabasca oil sands region (+3.9 to +11.5 ‰). Lighter δ34S values for larger aerosol size fractions are contrary to expectations for primary unrefined sulfur from untreated oil sands (+6.4 ‰) mixed with secondary sulfate from SO2 oxidation and accompanied by isotope fractionation in gas phase reactions with OH or the aqueous phase by H2O2 or O3. Furthermore, analysis of34S enhancements of sulfate and SO2 during CIMS-ON periods indicated rapid oxidation of SO2 from this local source at ground level on the surface of aerosols before reaching the high-volume sampler or on the collected aerosols on the filters in the high-volume sampler. Anti-correlations between δ34S values of dominantly secondary sulfate aerosols with D
ISSN:1680-7316
1680-7324
DOI:10.5194/acp-18-7757-2018