A33K-0337
Source of moist air for the Asian summer monsoon lower stratosphere

Wednesday, 16 December 2015
Poster Hall (Moscone South)
Kai Zhang, University of Texas at Austin, Austin, TX, United States, Rong Fu, University of Texas at Austin, Geological Sciences, Austin, TX, United States and Tao Wang, Texas A & M University, College Station, TX, United States
Abstract:
The Asian monsoon region is the most prominent moist center of lower stratospheric (LS) water vapor during boreal summer. However, the origin of such moist air is still unclear. Using Aura Microwave Limb Sounder (MLS) satellite observations and a domain-filling forward trajectory model, we show that moist air originates mostly from the western Asian Monsoon region where dehydration temperatures are warmer than those on the eastside of the Asian monsoon region. On seasonal scale, a shift of convective and dehydration center from the eastern to western monsoon region from early to late summer may contribute to the increase of LS water vapor over the Asian monsoon region. An increasing convection over the west side of the monsoon region can significantly moisten the LS. Air detrained from convection ascends with enhanced large-scale rising motion and dehydrate mostly within this region under warmer temperature, thus anomalously higher water vapor concentration. After final dehydration, water vapor anomalies show an upper-eastward propagation across the Asian monsoon region. This is primarily due to that air parcels tend to arise across the tropopause layer over the western region (eastern Iranian Plateau and northwestern India) after final dehydration as simulated by the trajectory model. This work highlights the importance of transport pathway shift, induced by the convective regime shift, on both seasonal and intraseasonal variations of water vapor in the Asian monsoon LS.