Atmospheric Measurement Techniques (Nov 2019)

A new approach to estimate supersaturation fluctuations in stratocumulus cloud using ground-based remote-sensing measurements

  • F. Yang,
  • R. McGraw,
  • E. P. Luke,
  • D. Zhang,
  • P. Kollias,
  • P. Kollias,
  • A. M. Vogelmann

DOI
https://doi.org/10.5194/amt-12-5817-2019
Journal volume & issue
Vol. 12
pp. 5817 – 5828

Abstract

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Supersaturation, crucial for cloud droplet activation and condensational growth, varies in clouds at different spatial and temporal scales. In-cloud supersaturation is poorly known and rarely measured directly. On the scale of a few tens of meters, supersaturation in clouds has been estimated from in situ measurements assuming quasi-steady-state supersaturation. Here, we provide a new method to estimate supersaturation using ground-based remote-sensing measurements, and results are compared with those estimated from aircraft in situ measurements in a marine stratocumulus cloud during the Aerosol and Cloud Experiment (ACE-ENA) field campaign. Our method agrees reasonably well with in situ estimations, and it has three advantages: (1) it does not rely on the quasi-steady-state assumption, which is questionable in clean or turbulent clouds, (2) it can provide a supersaturation profile, rather than just point values from in situ measurements, and (3) it enables building statistics of supersaturation in stratocumulus clouds for various meteorological conditions from multi-year ground-based measurements. The uncertainties, limitations, and possible applications of our method are discussed.