Kuala Lumpur 2019 Poster Session 2
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# |
First Name |
Last Name |
Title |
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2.01 |
B. |
Abish |
Aerosol induced upper tropospheric cooling and its impact on the Indian summer monsoon circulation |
|
2.02 |
Bhupesh |
Adhikary |
Transport of black carbon from planetary boundary layer to free troposphere on a seasonal scale over South Asia |
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2.03 |
Ghouse |
Basha |
Asian monsoon influence on dynamics and composition variability anticyclone in UTLS region |
|
2.04 |
Hemraj |
Bhattarai |
Nitrogenous aerosols in TIbetan Plateau, where do they come from? |
|
2.05 |
Adriana |
Bossolasco |
Studies of the impact of Asian Summer Monsoon convection on the aerosol and chemical composition on the Asian Tropopause Aerosol Layer (ATAL) |
|
2.06 |
Xi |
Chen |
Rapid transport of polluted compositions in UTLS during the Beijing 7.21 torrential rainfall event |
|
2.07 |
Jiao |
Chen |
|
|
2.08 |
Sishir |
Dahal |
|
|
2.09 |
Papori |
Dahutia |
Investigation of aerosol and cloud subtypes present at higher altitudes over the Himalayan foothills |
|
2.10 |
Sreyashi |
Debnath |
Impact of future air quality on public health and Indian Summer Monsoon rainfall |
|
2.11 |
Jie |
Gao |
Aerosol influences on radiative heating rates within the Asian tropopause aerosol layer |
|
2.12 |
Juanxiao |
Gong |
Diurnal and seasonal variability of AOD in Tibet Plateau: Comparison of MODIS Collection 6.1 data and ground measurements |
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2.13 |
Sreeharsha |
Hanumanthu |
CLaMS backward trajectory analysis of the airmass composition of theAsian Tropopause Aerosol Layer (ATAL) using COBALD Instrument Aerosol Back-Scatter Ratio measurements in August 2016, Nainital |
|
2.14 |
Hanashriah |
Hassan |
Seasonal Carbonaceous Abundances and Ionic Species of PM2.5 in Petaling Jaya Urban City |
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2.15 |
Mattie |
Hibbs |
Analysis of Rainfall Trends over Thailand Summer Monsoon and Related Dynamics Based on WRF-Chem Model Simulations |
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2.16 |
Liew |
Juneng |
Projected Changes of Surface Climate and Associated Circulations over the Southeast Asia Regions in the CORDEX-SEA multi-model Simulations |
|
2.17 |
Vijay |
Kanawade |
Aerosol-induced changes in cloud during Indian Summer Monsoon |
|
2.18 |
Ralph |
Lehmann |
Model calculations of the contribution of tropospheric SO2 to the stratospheric sulfur budget |
|
2.19 |
Qian |
Li |
Distribution and variation of CO in UTLS over Tibetan Plateau |
|
2.20 |
Qing |
Liang |
Surface to the upper troposphere and lower stratosphere transport of trace gases in the Asian summer monsoon and the Western Pacific warm pool: A conceptual analysis model |
|
2.21 |
Marianne |
Lund |
Climate response to patterns of SO2 and BC emissions in South and East Asia |
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2.22 |
Rolf |
Muller |
Aerosol measurements in Nainital, India in 2016 |
|
2.23 |
Tang |
Nanjun |
Interannual anomalies of the upper tropospheric water vapor mass and its formation analysis over the Tibetan Plateau area in summer |
|
2.24 |
Jessica |
Neu |
Influence of Convective and Microphysics Parameterizations on the Climatology and Variability of the Asian Summer Monsoon Anticyclone in the Community Earth System Model |
|
2.25 |
Amit |
Pandit |
Balloon-borne Measurements of Microphysical and Optical Properties of Cirrus Clouds over Hyderabad during the Summer Asian Monsoon |
|
2.26 |
Shantanu Kumar |
Pani |
Chemical, optical, and radiative properties of biomass-burning aerosol during intense fire events at a near-source region in Southeast Asia |
|
2.27 |
Prabir |
Patra |
Emissions of greenhouse gases and transport to the UT/LS region in monsoon Asia |
|
2.28 |
Kirpa |
Ram |
Rainwater chemistry over an urban site, Varanasi in the Indo-Gangetic plain (IGP): Impact of anthropogenic aerosol emissions |
|
2.29 |
Saginela |
RavindraBabu |
Indian summer monsoon onset signatures on the tropical tropopause layer |
|
2.30 |
Hosun |
Ryu |
Impact of the Asian monsoon on ozone variability in the tropical tropopause layer |
|
2.31 |
Akhil Raj |
S T |
Upper Troposphere-Lower Stratosphere Trace Gas Response to the Asian Summer Monsoon Circulation |
|
2.32 |
Fasiha |
Safdar |
Effect of Radiative Flux and Clouds Radiative Effect on Variability of Monsoon Precipitation over Pakistan |
|
2.33 |
Michael |
Schwartz |
UTLS composition variability associated with modes of the Asian monsoon anticyclone |
|
2.34 |
Lailatus |
Siami |
|
|
2.35 |
Prashant |
Singh |
Carbonaceous aerosols from open burning and its impact on regional weather in South Asia. |
|
2.36 |
Vanisa |
Surapipith |
Observation and Modeling the Direct/Indirect Effects and Feed-backs of Aerosols on Monsoon over Thailand and South China |
|
2.37 |
Fredolin |
Tangang |
Possible Combined effects of unmitigated future climate change and El Niño over Maritime Continent |
|
2.38 |
Abin |
Thomas |
Increasing trend of aerosol loading over peninsular India and adjoining Seas |
|
2.39 |
Taku |
Umezawa |
Asian summer monsoon signatures observed by the CONTRAIL commercial airliner measurements |
|
2.40 |
Cheng |
Yuan |
Interannual Variability of Asian Tropopause Aerosol Layer (ATAL) and Asian Summer Monsoon Evolution |