Litcius/Paper detail

High Supersaturation in the Wake of Falling Hydrometeors: Implications for Cloud Invigoration and Ice Nucleation

Prasanth Prabhakaran, Gregory Kinney, Will Cantrell, Raymond A. Shaw, Eberhard Bodenschatz

2020Geophysical Research Letters26 citationsDOIOpen Access PDF

Abstract

Abstract Aerosol particles, cloud droplets, and ice crystals, coupled through the supersaturation field, play an important role in the buoyancy and life cycle of convective clouds. This letter reports laboratory observations of copious cloud droplets and ice crystals formed in the wake of a warm, falling water drop, which is a laboratory surrogate for a relatively warm hydrometeor in atmospheric clouds, such as a graupel particle in the wet growth regime. Aerosols were activated in the regions of very high supersaturation due to mixing in the wake. A mechanism is explored for attaining very high supersaturations capable of activating significant fractions of the interstitial aerosols within the lifetime of a convective cloud. The latent heat released from the activation of interstitial aerosols and subsequent growth may provide an additional source of buoyancy for cloud invigoration and may lead to larger concentrations of ice crystals.

Topics & Concepts

SupersaturationBuoyancyIce nucleusAtmospheric sciencesWakeIce crystalsNucleationConvectionAerosolClear iceGraupelDrop (telecommunication)Environmental scienceMeteorologyCloud physicsCloud baseLiquid water contentMechanicsMaterials scienceCloud computingGeologyPhysicsSea iceThermodynamicsArctic ice packAntarctic sea iceOperating systemTelecommunicationsComputer scienceAtmospheric aerosols and cloudsAtmospheric chemistry and aerosolsAeolian processes and effects