Aerosol optical properties calculated from size distributions, filter samples and absorption photometer data at Dome C, Antarctica, and their relationships with seasonal cycles of sources

Optical properties of surface aerosols at Dome C, Antarctica, in 2007–2013 and their potential source areas are presented. Scattering coefficients (σsp) were calculated from measured particle number size distributions with a Mie code and from filter samples using mass scattering efficiencies. Absorp...

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Bibliographic Details
Published in:Atmospheric chemistry and physics 2022-04, Vol.22 (7), p.5033-5069
Main Authors: Virkkula, Aki, Grythe, Henrik, Backman, John, Petäjä, Tuukka, Busetto, Maurizio, Lanconelli, Christian, Lupi, Angelo, Becagli, Silvia, Traversi, Rita, Severi, Mirko, Vitale, Vito, Sheridan, Patrick, Andrews, Elisabeth
Format: Article
Language:English
Subjects:
Absorption
Absorption coefficient
Absorptivity
Aerosol optical properties
Aerosols
Air masses
Albedo
Albedo (solar)
Algorithms
Altitude
Biomass
Biomass burning
Black carbon
Burning
Coefficients
Comparative analysis
Cycles
Domes
Emission measurements
Emissions
Humidity
Lidar
Marine aerosols
Mathematical analysis
Monthly
Nephelometers
Optical instruments
Optical properties
Optical radar
Photometers
Phytoplankton
Plumes
Polar regions
Scattering coefficient
Sea level
Seasonal variation
Secondary aerosols
Smoke plumes
Soot
South Pole
Spray
Summer
Wavelength
Wildfires
Winter
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Summary:Optical properties of surface aerosols at Dome C, Antarctica, in 2007–2013 and their potential source areas are presented. Scattering coefficients (σsp) were calculated from measured particle number size distributions with a Mie code and from filter samples using mass scattering efficiencies. Absorption coefficients (σap) were determined with a three-wavelength Particle Soot Absorption Photometer (PSAP) and corrected for scattering by using two different algorithms. The scattering coefficients were also compared with σsp measured with a nephelometer at the South Pole Station (SPO). The minimum σap was observed in the austral autumn and the maximum in the austral spring, similar to other Antarctic sites. The darkest aerosol, i.e., the lowest single-scattering albedo ωo≈0.91, was observed in September and October and the highest ωo≈0.99 in February and March. The uncertainty of the absorption Ångström exponent αap is high. The lowest αap monthly medians were observed in March and the highest in August–October. The equivalent black carbon (eBC) mass concentrations were compared with eBC measured at three other Antarctic sites: the SPO and two coastal sites, Neumayer and Syowa. The maximum monthly median eBC concentrations are almost the same (∼3±1 ng m−3) at all these sites in October–November. This suggests that there is no significant difference in eBC concentrations between the coastal and plateau sites. The seasonal cycle of the eBC mass fraction exhibits a minimum f(eBC) ≈0.1 % in February–March and a maximum ∼4 %–5 % in August–October. Source areas were calculated using 50 d FLEXPART footprints. The highest eBC concentrations and the lowest ωo were associated with air masses coming from South America, Australia and Africa. Vertical simulations that take BC particle removal processes into account show that there would be essentially no BC particles arriving at Dome C from north of latitude 10∘ S at altitudes
ISSN:1680-7324
1680-7316
1680-7324
DOI:10.5194/acp-22-5033-2022