Aerosol–Cloud Interaction at the Summit of Mt. Fuji, Japan: Factors Influencing Cloud Droplet Number Concentrations

• Main Authors: Yoko Iwamoto, Ayami Watanabe, Ryota Kataoka, Mitsuo Uematsu, Kazuhiko Miura
• Format: Article
• Language: English
• Published: MDPI AG 2021-09-01
• Series: Applied Sciences
• Subjects: cloud condensation nuclei; high alpine site; size distribution; hygroscopicity parameter; water vapor supersaturation
• Online Access: https://www.mdpi.com/2076-3417/11/18/8439

To investigate interactions between aerosols and clouds, the size and number concentrations of the cloud condensation nuclei (CCN) and the cloud droplets (CDs) were measured at the summit of Mt. Fuji (altitude 3776 m), Japan. The CCN number concentrations (<i>N</i>_CCN) are significantly higher in continental air masses than in air masses from the Pacific Ocean. The hygroscopicity parameter <i>κ</i> did not change much for different air mass origins, indicating that aerosol particles in the free troposphere are well mixed. Based on the CD number concentrations (<i>N</i>_CD), the degree of supersaturation in the ambient air during the cloud-shrouded period was estimated to be 0.15% (25th percentile) to 0.44% (75th percentile). To evaluate factors influencing the <i>N</i>_CD, measured <i>N</i>_CD were compared to ones calculated based on the Köhler theory using aerosol number size distributions, <i>κ</i>, and the degree of supersaturation. The results showed that <i>N</i>_CD could not be reproduced satisfyingly when the mean number size distribution or the mean effective supersaturation were used for the calculation. This study highlights the importance of obtaining information about the degree of supersaturation to predict <i>N</i>_CD in the atmosphere.