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  • 1.
    Bulatovic, Ines
    et al.
    Stockholms universitet, Meteorologiska institutionen (MISU).
    Igel, Adele L.
    Leck, Caroline
    Stockholms universitet, Meteorologiska institutionen (MISU).
    Heintzenberg, Jost
    Stockholms universitet, Meteorologiska institutionen (MISU).
    Riipinen, Ilona
    Stockholms universitet, Institutionen för miljövetenskap.
    Ekman, Annica M. L.
    Stockholms universitet, Meteorologiska institutionen (MISU).
    The importance of Aitken mode aerosol particles for cloud sustenance in the summertime high Arctic: A simulation study supported by observational data2021Inngår i: Atmospheric Chemistry And Physics, ISSN 1680-7316, E-ISSN 1680-7324, Vol. 21, nr 5, s. 3871-3897Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    The potential importance of Aitken mode particles (diameters similar to 25-80 nm) for stratiform mixed-phase clouds in the summertime high Arctic (> 80 degrees N) has been investigated using two large-eddy simulation models. We find that, in both models, Aitken mode particles significantly affect the simulated microphysical and radiative properties of the cloud and can help sustain the cloud when accumulation mode concentrations are low (< 10-20 cm-3), even when the particles have low hygroscopicity (hygroscopicity parameter - kappa = 0.1). However, the influence of the Aitken mode decreases if the overall liquid water content of the cloud is low, either due to a higher ice fraction or due to low radiative cooling rates. An analysis of the simulated supersaturation (ss) statistics shows that the ss frequently reaches 0.5 % and sometimes even exceeds 1 %, which confirms that Aitken mode particles can be activated. The modelling results are in qualitative agreement with observations of the Hoppel minimum obtained from four different expeditions in the high Arctic. Our findings highlight the importance of better understanding Aitken mode particle formation, chemical properties and emissions, particularly in clean environments such as the high Arctic.

  • 2.
    Siegel, Karolina
    et al.
    Stockholms universitet, Institutionen för miljövetenskap.
    Neuberger, Almuth
    Stockholms universitet, Institutionen för miljövetenskap.
    Karlsson, Linn
    Stockholms universitet, Institutionen för miljövetenskap.
    Zieger, Paul
    Stockholms universitet, Institutionen för miljövetenskap.
    Mattsson, Fredrik
    Stockholms universitet, Institutionen för miljövetenskap.
    Duplessis, Patrick
    Dada, Lubna
    Daellenbach, Kaspar
    Schmale, Julia
    Baccarini, Andrea
    Krejci, Radovan
    Stockholms universitet, Institutionen för miljövetenskap.
    Svenningsson, Birgitta
    Chang, Rachel
    Ekman, Annica M. L.
    Stockholms universitet, Meteorologiska institutionen (MISU).
    Riipinen, Ilona
    Stockholms universitet, Institutionen för miljövetenskap.
    Mohr, Claudia
    Stockholms universitet, Institutionen för miljövetenskap.
    Using Novel Molecular-Level Chemical Composition Observations of High Arctic Organic Aerosol for Predictions of Cloud Condensation Nuclei2022Inngår i: Environmental Science and Technology, ISSN 0013-936X, E-ISSN 1520-5851, Vol. 56, nr 19, s. 13888-13899Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    Predictions of cloud droplet activation in the late summertime (September) central Arctic Ocean are made using κ-Köhler theory with novel observations of the aerosol chemical composition from a high-resolution time-of-flight chemical ionization mass spectrometer with a filter inlet for gases and aerosols (FIGAERO-CIMS) and an aerosol mass spectrometer (AMS), deployed during the Arctic Ocean 2018 expedition onboard the Swedish icebreaker Oden. We find that the hygroscopicity parameter κ of the total aerosol is 0.39 ± 0.19 (mean ± std). The predicted activation diameter of ∼25 to 130 nm particles is overestimated by 5%, leading to an underestimation of the cloud condensation nuclei (CCN) number concentration by 4-8%. From this, we conclude that the aerosol in the High Arctic late summer is acidic and therefore highly cloud active, with a substantial CCN contribution from Aitken mode particles. Variability in the predicted activation diameter is addressed mainly as a result of uncertainties in the aerosol size distribution measurements. The organic κ was on average 0.13, close to the commonly assumed κ of 0.1, and therefore did not significantly influence the predictions. These conclusions are supported by laboratory experiments of the activation potential of seven organic compounds selected as representative of the measured aerosol.

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