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Graupel Precipitating From Thin Arctic Clouds With Liquid Water Paths Less Than 50 g m <sup>−2</sup>

Kyle E. Fitch, Timothy J. Garrett

2021Geophysical Research Letters23 citationsDOIOpen Access PDF

Abstract

Abstract Rimed precipitation growth can efficiently remove moisture and aerosols from the boundary layer, yet thin low‐level Arctic mixed‐phase clouds are generally thought to precipitate pristine and aggregated ice crystals. Here we present automated surface photographic measurements showing that only 34% of precipitation particles exhibit negligible riming and that graupel particles in diameter commonly fall from clouds with liquid water paths less than 50 g m −2 . Analyses indicate that significant riming enhancement can occur provided sustained updrafts of 0.4 m s −1 , consistent with those measured in Arctic clouds. A Lagrangian numerical simulation that tracks falling particles suggests that similar updraft speeds can account for about one half of the observed riming enhancement. Riming enhancement appears particularly likely when weak temperature inversions are observed at cloud top, but a full explanation remains to be determined.

Topics & Concepts

GraupelArcticPrecipitationAtmospheric sciencesEnvironmental scienceLiquid water contentBoundary layerMaterials scienceMeteorologyIce crystalsCloud computingGeologyPhysicsMechanicsOceanographyOperating systemComputer scienceAtmospheric aerosols and cloudsAtmospheric chemistry and aerosolsMeteorological Phenomena and Simulations
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