Ice Crystal Formation and Evolution in Five Campaigns: START08, HIPPO Global, DC3, PREDICT and TORERO
In order to understand the microphysical properties of cirrus clouds, it is important to understand the formation and evolution of the environments where ice crystals form and reside on the microscale (~100 m). Uncertainties remain in simulating/parameterizing the evolution of ice crystals, which re...
Main Authors: | , , , |
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SJSU ScholarWorks
2013
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Online Access: | https://scholarworks.sjsu.edu/meteorology_pub/30 https://scholarworks.sjsu.edu/context/meteorology_pub/article/1029/viewcontent/Diao_IceCrystalFormationAndEvolutionInFiveCampaignsSTART08HIPPO_AmericanGeophysicalUnionFallMeeting2013_stamped.pdf |
Summary: | In order to understand the microphysical properties of cirrus clouds, it is important to understand the formation and evolution of the environments where ice crystals form and reside on the microscale (~100 m). Uncertainties remain in simulating/parameterizing the evolution of ice crystals, which require more analyses in the Lagrangian view. However, most in situ observations are in the Eulerian view and are restricted from examining the lifecycle of cirrus clouds. In this work, a new method of Diao et al. GRL (2013)* is used to separate out five phases of ice crystal evolution, using the horizontal spatial relationships between ice supersaturated regions (ISSRs) and ice crystal regions (ICRs). In-situ, aircraft-based observations from five flight campaigns are used to compare the evolution processes of ISSRs and ICRs, which include the National Science Foundation HIAPER Pole-to-Pole Observations (HIPPO) Global campaign (2009-2011 Arctic to Antarctic over the central Pacific Ocean), the Stratosphere Troposphere Analyses Regional Transport 2008 (START08) campaign (2008 North America), the Pre-Depression Investigation of Cloud-Systems in the Tropics (PREDICT) campaign (2010 tropical western Atlantic), the Tropical Ocean Troposphere Exchange of Reactive Halogen Species and Oxygenated VOC (2012 Costa Rica), and the Deep Convection, Clouds, and Chemistry (DC3) campaign (2011 Interior North America). To understand the evolution of ICRs and ISSRs on the microscale, we compare the microphysical evolution processes inside ISSRs and ICRs in terms of relative humidity with respect to ice (RHi), ice crystal mean diameter (Dc) and ice crystal number density (Nc) at different meteorological and dynamical backgrounds during these five campaigns. Different phases of ice nucleation and evolution are contrasted to understand how cirrus clouds evolve from clear-sky ISS into fully developed clouds, and finally into sedimentation/evaporation phase. The results show that the ratios of each evolution phase with respect to the total ... |
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