JpGU-AGU Joint Meeting 2017

Presentation information

[EE] Poster

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

[A-CG44] [EE] Asian monsoon hydro-climate and water resources research for GEWEX

Sun. May 21, 2017 10:45 AM - 12:15 PM Poster Hall (International Exhibition Hall HALL7)

convener:Shinjiro Kanae(School of Environment and Society, Tokyo Institute of Technology), Atsushi Higuchi(Center for Environmental Remote Sensing (CEReS), Chiba University, Japan), Jun Matsumoto(Deaprtment of Geography, Tokyo Metropolitan University), Satoru Yokoi(Japan Agency for Marine-Earth Science and Technology)

[ACG44-P02] Dominant synoptic disturbance in the extreme rainfall at Cherrapunji, northeast India, based on 104 years of rainfall data (1902-2005)

*Fumie Murata1, Toru Terao2, Hatsuki Fujinami3, Taiichi Hayashi4, Haruhisa Asada5, Jun Matsumoto6, Hiambok Jones Syiemlieh7 (1.Faculty of Science, Kochi University, 2.Faculty of Education, Kagawa University, 3.Institute for Space-Earth Environmental Research, Nagoya University, 4.Center for Southeast Asian Studies, Kyoto University, 5.Nara Women's University, 6.Tokyo Metropolitan University, 7.Department of Geography, North-Eastern Hill University)

Keywords:extreme rainfall , Indian summer monsoon, intraseasonal variability, orographic rainfall

The characteristics of active rainfall spells (ARSs) at Cherrapunji, northeast India, where extreme rainfall is experienced, and their relationships with large-scale dynamics were studied using daily rainfall data from 1902 to 2005 and Japanese 55-year reanalysis from 1958 to 2005. Extreme daily rainfalls occur in association with ARSs. The extremely large rainfall amounts in the monsoon season are decided by a cumulative rainfall during ARSs. ARSs start when anomalous anticyclonic circulation (AAC) at 850-hPa propagates westward from the South China Sea and western North Pacific, and covers the northern Bay of Bengal. The AAC propagates further westward and suppresses convection over central India during ARSs at Cherrapunji, and continues for 3 to 14 days. Consequently, a northward shift of the monsoon trough during the 'break' in the Indian core region occurs. The westerly wind, which prevails in the northern portion of the AAC, transports moisture toward northeast India and enhances moisture convergence over northeast India with southerly moisture transport from the Bay of Bengal, and greatly intensifies the orographic rainfall. In the upper troposphere, the Tibetan high tends to extend southward with the onset of ARSs. A linear relationship can be seen between the length and total rainfall of an ARS. Longer ARSs tends to result in greater total rainfall. AACs with a greater zonal scale tend to produce longer and more intense ARSs. This study provide a certain evidence for the effect of AACs in the western North Pacific on the Indian summer monsoon.