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InSAR observation and numerical modeling of the water vapor signal during a heavy rain: A case study of the 2008 Seino event, central Japan

2013; American Geophysical Union; Volume: 40; Issue: 17 Linguagem: Inglês

10.1002/grl.50891

1944-8007

Youhei Kinoshita, Masanobu Shimada, Masato Furuya,

Ocean Waves and Remote Sensing

This study reports the first detection and analysis of a localized water vapor distribution obtained using interferometric synthetic aperture radar (InSAR) during the Seino heavy rain episode. The InSAR data retrieved during the ALOS/PALSAR emergency observations for the event revealed a radar line‐of‐sight (LOS) change of up to 130 mm within 10 km. Based on the signal, we estimated the three‐dimensional water vapor distribution using the ray‐tracing method, which indicated a column of nearly saturated water vapor within a 10 km 2 area reaching from the surface to 9000 m above ground level. To geophysically confirm this signal, Weather Research and Forecasting (WRF) model simulations were performed, revealing a deep convection that was initiated by orographic lift caused by the Yoro Mountains. Another simulation that did not include the Yoro Mountains did not produce a deep convection. The WRF simulation also suggested that the effect of hydrometeors can account for approximately 20% of the maximum LOS change but this effect is even more localized than the effect of water vapor.