Linking Remote Sensing and In-Situ Data of Cloud Properties
Clouds play a major role in many earth-atmosphere system processes, such as precipitation processes and radiative transfer affecting the weather and the climate. Although these processes are included in atmospheric numerical models, they still remain uncertain. This thesis focuses on the comprehensi...
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| Format: | Doctoral or Postdoctoral Thesis |
| Language: | English |
| Published: |
2019
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| Online Access: | https://research.manchester.ac.uk/en/studentTheses/ad3693ff-7a69-4fc0-b407-e256eb0cb45d https://pure.manchester.ac.uk/ws/files/122885533/FULL_TEXT.PDF |
| Summary: | Clouds play a major role in many earth-atmosphere system processes, such as precipitation processes and radiative transfer affecting the weather and the climate. Although these processes are included in atmospheric numerical models, they still remain uncertain. This thesis focuses on the comprehensive microphysical analysis of a warm front of a wide low pressure system over the north Atlantic ocean, which affected the United Kingdom on 21 January 2009. For this analysis, airborne and ground based measurements are compared in order to investigate and understand microphysical properties and structures of the clouds. During the investigation of the warm front, a warm conveyor belt was always activated transporting humid air aloft and causing the formation of massive stratiform clouds with embedded convective elements, which are called “generating cells�. Such cells consist of a high reflectivity factor (ZH) core with rimed crystals and high differential reflectivity (ZDR) boundaries with pristine planar crystals. Expanding on the effect and the evolution of these convective features, which were entering the warm conveyor belt dominated by strong and sheared westerlies, they were transformed into two slanted fall streaks of different polarimetric and microphysical characteristics. The microphysical processes within these structures together with the presence of strong winds along the profile of the atmosphere can affect the time and the place of the occurrence of surface precipitation. Further analysis of the warm front focused on the processes occurring at the upper regions of the clouds and within the warm conveyor belt. For first time, we observed high concentrations of an ice particle with distinctive shape referred to as “ice-lolly�, the formation of which is explained. These particles can potentially play an important role in the lifetime of the clouds and the surface precipitation, being produced due to the interaction between the warm conveyor belt and the ice multiplication mechanism. The latter ... |
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