JpGU-AGU Joint Meeting 2017

Presentation information

[EE] Poster

A (Atmospheric and Hydrospheric Sciences) » A-CG Complex & General

[A-CG46] [EE] Satellite Earth Environment Observation / Satellite Based Remote Sensing of Weather, Climate, and Environment

Sat. May 20, 2017 10:45 AM - 12:15 PM Poster Hall (International Exhibition Hall HALL7)

convener:Riko Oki(Japan Aerospace Exploration Agency), Allen A Huang(University of Wisconsin Madison), Gail Skofronick Jackson(NASA Goddard Space Flight Center), Yoshiaki HONDA(Center for Environmental Remote Sensing, Chiba University), Paul Chang(NOAA College Park)

[ACG46-P07] Variability of Vertical Structure of Precipitation over Sumatra and Adjoining Oceans from Long-Term Measurements of TRMM PR

*Marzuki Marzuki1, Hiroyuki Hashiguchi2, Mutya Vonnisa1, Harmadi Harmadi1, Ovandriyove Ovandriyove1, Elfira Saufina1 (1.Department of Physics, Andalas University, 2.RISH, Kyoto University)

Keywords:vertical structure of precipitation, TRMM PR, Sumatra

This study is a follow-up of a previous study on the vertical structure of precipitation over Sumatra [1]. Spatial, seasonal and diurnal variabilities of the vertical structure of precipitation have been studied using 17 years of Tropical Rainfall Measuring Mission’s Precipitation Radar (TRMM PR) version 7 data over Sumatra and adjoining oceans. Special emphasis has been put on six different climatic rain regimes, namely, Indian ocean (2 locations), coastal (1 location) and inland (3 locations). The data are classified into different types of precipitation (stratifrom, deep and shallow) including the virga rain. The vertical structure of precipitation over the inland area is compared with long-term measurement of 1.3 GHz Boundary Layer Radar at Kototabang, west Sumatra. The latest TRMM 2A-23 and 2A-25 products (version 7) have been statistically analyzed. First, the spatial, seasonal, and diurnal variations of storm height and freezing level have been investigated. It is found that tall storm is more dominant over the inland than coastal and ocean. Same trend is also observed for melting level height. However, the coastal area has lower percentage of tall melting layer than inland and the ocean. Second, mean vertical profile of radar reflectivity (VPR) has been studied for the stratiform and convective precipitation. The VPR variability has been analyzed for different seasons and diurnal cycles as well as rain intensities. Third, the characteristics of rain intensification and weakening in the vertical direction have been examined by the statistical analysis of VPR gradient (VPRG) above and below the melting layer. Detailed information about the result will be presented during the meeting.

[1] Marzuki, Hashiguchi, H., Kozu, T., Shimomai, T., Shibagaki, Y., Takahashi, Y., 2016, Precipitation Microstructure in Different Madden–Julian Oscillation Phases over Sumatra, Atmospheric Research, Vol. 168, pp. 121-138.