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- Title
Low‐Volatility Vapors and New Particle Formation Over the Southern Ocean During the Antarctic Circumnavigation Expedition.
- Authors
Baccarini, Andrea; Dommen, Josef; Lehtipalo, Katrianne; Henning, Silvia; Modini, Robin L.; Gysel‐Beer, Martin; Baltensperger, Urs; Schmale, Julia
- Abstract
During summer, the Southern Ocean is largely unaffected by anthropogenic emissions, which makes this region an ideal place to investigate marine natural aerosol sources and processes. A better understanding of natural aerosol is key to constrain the preindustrial aerosol state and reduce the aerosol radiative forcing uncertainty in global climate models. We report the concentrations of gaseous sulfuric acid, iodic acid, and methanesulfonic acid (MSA) together with a characterization of new particle formation (NPF) events over a large stretch of the Southern Ocean. Measurements were conducted on board the Russian icebreaker Akademik Tryoshnikov from January to March 2017. Iodic acid is characterized by a particular diurnal cycle with reduced concentration around noon, suggesting a lower formation yield when solar irradiance is higher. Gaseous MSA does not have a diurnal cycle and measured concentrations in gas and condensed phase are compatible with this species being primarily produced via heterogeneous oxidation of dimethyl sulfide and subsequent partitioning into the gas phase. We also found that NPF in the boundary layer is mainly driven by sulfuric acid but it occurred very rarely over the vast geographical area probed and did not contribute to the cloud condensation nuclei budget in a directly observable manner. Despite the near absence of NPF events in the boundary layer, Aitken mode particles were frequently measured, supporting the hypothesis of a free tropospheric source. Iodic acid and MSA were not found to participate in nucleation, however, MSA may contribute to aerosol growth via heterogeneous formation in the aqueous phase. Key Points: Production of methanesulfonic acid occurred predominantly in the condensed phase, followed by enhanced volatilization at lower relative humidityThe observed new particle formation events were probably driven by sulfuric acid and the environmental conditions (mainly temperature and condensation sink)Boundary layer new particle formation over the Southern Ocean in summer occurred very sporadically and does not contribute to the cloud condensation nuclei budget
- Subjects
ANTARCTIC Ocean; VOYAGES around the world; SULFURIC acid; IODIC acid; AEROSOLS
- Publication
Journal of Geophysical Research. Atmospheres, 2021, Vol 126, Issue 22, p1
- ISSN
2169-897X
- Publication type
Article
- DOI
10.1029/2021JD035126