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- Title
Detecting Water Vapor Variability during Heavy Precipitation Events in Hong Kong Using the GPS Tomographic Technique.
- Authors
Chen, Biyan; Liu, Zhizhao; Wong, Wai-Kin; Woo, Wang-Chun
- Abstract
Water vapor has a strong influence on the evolution of heavy precipitation events due to the huge latent heat associated with the phase change process of water. Accurate monitoring of atmospheric water vapor distribution is thus essential in predicting the severity and life cycle of heavy rain. This paper presents a systematic study on the application of tomographic solutions to investigate water vapor variations during heavy precipitation events. Using global positioning system (GPS) observations, the wet refractivity field was constructed at a temporal resolution of 30 min for three heavy precipitation events occurring in Hong Kong, China, in 2010-14. The zenith wet delay (ZWD) is shown to be a good indicator in observing the water vapor evolution in heavy rain events. The variabilities of water vapor at five altitude layers (<1000, 1000-2000, 2000-3000, 3000-5000, and >5000 m) were examined. It revealed that water vapor above 3000 m has larger fluctuation than that under 3000 m, though it accounts for only 10%-25% of the total amount of water vapor. The relative humidity fields derived from tomographic results revealed moisture variation, accumulation, saturation, and condensation during the heavy rain events. The water vapor variabilities observed by tomography have been validated using European Centre for Medium-Range Weather Forecasts (ECMWF) reanalysis and radiosonde data. The results positively demonstrated the potential of using water vapor tomographic technique for detecting and monitoring the evolution of heavy rain events.
- Subjects
HONG Kong (China); ATMOSPHERIC water vapor; METEOROLOGICAL precipitation; GLOBAL Positioning System; PHASE transitions
- Publication
Journal of Atmospheric & Oceanic Technology, 2017, Vol 34, Issue 5, p1001
- ISSN
0739-0572
- Publication type
Article
- DOI
10.1175/JTECH-D-16-0115.1