AOGS 2023 Abstracts
Atmospheric Sciences
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| AS01 The Asian Monsoon, Extremes and Climate Change |
| Abstract ID |
Abstract Title |
Authors |
| AS01-A005 |
Long-term Trends and Variations of Southwesterly Flow Around Taiwan During Mei-yu Season Over 44 Recent Years |
Yen-Chao CHIU#+, Fang-Ching CHIEN
National Taiwan Normal University, Taiwan |
| AS01-A035 |
Quasi-biweekly Oscillation in Tropical Asian Monsoon Rainfall Variations During Boreal Summer: Propagation and Maintenance |
Weizhen CHEN+, Song YANG, Wei WEI#
Sun Yat-sen University, China |
| AS01-A084 |
Monsoon Planet: Competing Effect of Global Warming and Aerosol Concentration |
Anja KATZENBERGER1,2#+, Anders LEVERMANN1
1Potsdam Institute of Climate Impact Research, Germany, 2University of Potsdam, Germany |
| AS01-A001 |
Zonal Extension of the Middle East Jet Stream and its Influence on the Asian Monsoon |
Wei WEI#+
Sun Yat-sen University, China |
| AS01-A002 |
Intraseasonal Oscillation and the Taiwan Climate |
Chih-Wen HUNG#+
National Taiwan Normal University, Taiwan |
| AS01-A081 |
Recent Changes in Indian Summer Monsoon Core Region’s Precipitation Extremes |
Raju ATTADA1#+, Bajrang C1, B. N. GOSWAMI2
1Indian Institute of Science Education and Research Mohali, India, 2Cotton University, India |
| AS01-A003 |
Diverse Impacts of ENSO on Summertime Synoptic-scale Disturbance Intensity Over the Tropical Western North Pacific |
Qinlu GU+, Renguang WU#
Zhejiang University, China |
| AS01-A004 |
Intraseasonal Variability of Global Land Monsoon Precipitation and its Recent Trend |
Fei LIU1#+, Bin WANG2
1Sun Yat-sen University, China, 2University of Hawaii, United States |
| AS01-A007 |
The Concurrent Record-breaking Rainfall Over Northwest India and North China in September 2021 |
Ying NA1#+, Riyu LU2
1Beijing Municipal Climate Center, China, 2Chinese Academy of Sciences, China |
| AS01-A014 |
Role of the intraseasonal IPCO in the Absence of Typhoons in July 2020 |
Jianping LI#+, Fei LI, Yina DIAO, Hao WANG
Ocean University of China, China |
| AS01-A008 |
The Synergistic Effect of the Summer NAO and Northwest Pacific SST on Extreme Heat Events in the Central–eastern China |
Hao WANG1+, Jianping LI1#, Fei ZHENG2
1Ocean University of China, China, 2Sun Yat-sen University, China |
| AS01-A009 |
Monsoon During Past Millennium and Present |
Akanksha SHARMA#+, A. P. DIMRI
Jawaharlal Nehru University, India |
| AS01-A010 |
Narrowing Region for Tropical Convections in the Western North Pacific |
Namyoung KANG1#+, Sanghyeon YUN1, Chan Joo JANG2
1Kyungpook National University, Korea, South, 2Korea Institute of Ocean Science and Technology, Korea, South |
| AS01-A011 |
Effects of Indian Ocean Dipole Initialization on the Forecasting of La Niña One Year in Advance |
Jing WANG1, Shouwen ZHANG2#+, Hua JIANG3, Dongliang YUAN1
1Chinese Academy of Sciences, China, 2Southern Marine Science and Engineering Guangdong Laboratory, China, 3National Marine Environmental Forecasting Center, China |
| AS01-A012 |
Extremely Hot East Asia and Flooding Western South Asia in the Summer of 2022 Tied to Reversed Flow Over Tibetan Plateau |
Chao HE1#+, Lixia ZHANG2, Xiaolong CHEN2, Tianjun ZHOU2, Wenxia ZHANG2
1Jinan University, China, 2Chinese Academy of Sciences, China |
| AS01-A013 |
Modelling the Effect of Aerosol and Greenhouse Gas Forcing on the Asian Monsoons with an Intermediate Complexity Climate Model |
Lucy RECCHIA#+, Valerio LUCARINI
University of Reading, United Kingdom |
| AS01-A018 |
Quantitative Attribution of Vertical Motions Responsible for the Early Spring Drought Conditions Over Southeastern China |
Zejiang YIN+, Song YANG, Wei WEI#
Sun Yat-sen University, China |
| AS01-A019 |
Influences of Tropical Pacific and North Atlantic SST Anomalies on Summer Drought Over Asia |
Jianmin ZHANG+, Renguang WU#
Zhejiang University, China |
| AS01-A020 |
Application of Linear Inverse Modelling to Tropical Interbasin Interaction |
Shoichiro KIDO1#+, Ingo RICHTER1, Tomoki TOZUKA2, Ping CHANG3
1Japan Agency for Marine-Earth Science and Technology, Japan, 2The University of Tokyo, Japan, 3Texas A&M University, United States |
| AS01-A021 |
Link Between the Land–sea Thermal Contrast and the Asian Summer Monsoon |
Zhiyan ZUO#, Kaiwen ZHANG+
Fudan University, China |
| AS01-A073 |
On Interpreting Modern Precipitation-δ18O from South Korea: Implications to Paleoclimate Reconstruction |
Nitesh SINHA1#+, Timmermann AXEL2, Hyuna KIM3
1Pusan National University, Korea, South, 2Center for Climate Physics, Institute for Basic Science, Korea, South, 3IBS Center for Climate Physics, Korea, South |
| AS01-A116 |
Future Indian Ocean Warming Patterns |
Sahil SHARMA1#+, Kyung-Ja HA1, Ryohei YAMAGUCHI2, Keith RODGERS1, Axel TIMMERMANN1, Eui-Seok CHUNG3
1Pusan National University, Korea, South, 2Japan Agency for Marine-Earth Science and Technology, Japan, 3Korea Polar Research Institute, Korea, South |
| AS01-A039 |
Impact of Ural Blocking on Sub‑seasonal Siberian Cold Anomalies Modulated by the Winter East Asian Trough |
Yuanyuan SONG1#+, Dehai LUO2, Fei ZHENG2, Yao YAO2
1Institute of Oceanology, Chinese Academy of Sciences, China, 2Chinese Academy of Sciences, China |
| AS01-A023 |
Emission Sources of the Black Carbon Aerosols Over the Indian Ocean During the Monsoon Season |
Krishnakant BUDHAVANT1,2#+, August ANDERSSON3, Henry HOLMSTRAND3, S.K. SATHEESH2, Orjan GUSTAFSSON3
1Maldives Meteorological Services, Maldives, 2Indian Institute of Science, India, 3Stockholm University, Sweden |
| AS01-A024 |
Decadal Background for Active Extreme Drought Episodes in the Decade of 2010–19 Over Southeastern Mainland Asia |
Lin WANG1#+, Gang HUANG1, Wen CHEN1, Ting WANG1, Chakrit CHOTAMONSAK2, Atsamon LIMSAKUL3
1Chinese Academy of Sciences, China, 2Chiang Mai University, Thailand, 3Environmental Research and Training Center, Thailand |
| AS01-A026 |
More Than Six Billion People Encountering More Exposure to Climate Extremes with 1.5 ◦c and 2.0 ◦c Global Warming |
Peihua QIN#+
Chinese Academy of Sciences, China |
| AS01-A027 |
Trans-basin Influence of Southwest Tropical Indian Ocean Warming During Early Boreal Summer |
Zesheng CHEN1+, Zhenning LI2, Yan DU1#, Zhiping WEN3, Renguang WU4
1Chinese Academy of Sciences, China, 2Hong Kong University of Science and Technology, China, 3Fudan University, China, 4Zhejiang University, China |
| AS01-A028 |
Impacts of the East Asian Winter Monsoon on Precipitation Variability Over East Asia-western North Pacific |
Renguang WU#+, Zhenzhen WANG
Zhejiang University, China |
| AS01-A032 |
Recent Extreme Events: A Glimpse of Climate Change? |
Ramesh KRIPALANI1,2#+, Preethi BHASKAR1, Kyung-Ja HA3, Jai-Ho OH4, Milind MUJUMDAR1
1Indian Institute of Tropical Meteorology, India, 2Pukyong and Pusan National Universities, Korea, South, 3Pusan National University, Korea, South, 4Nano C&W, Korea, South |
| AS01-A033 |
The Role of C-shape Tropical Land in Forming Asian Summer Monsoon |
Xinyu WEN#+, Junyu MEI
Peking University, China |
| AS01-A036 |
The Contribution of Non-tropical Cyclone Vortices to the Rainfall and Rainfall Extremes During Summer and Winter Monsoon Seasons in the Philippines |
Jun MATSUMOTO1,2#+, Lyndon Mark OLAGUERA3, John MANALO1,4
1Tokyo Metropolitan University, Japan, 2Japan Agency for Marine-Earth Science and Technology, Japan, 3Manila Observatory, Philippines, 4Philippine Atmospheric Geophysical and Astronomical Services Administration, Philippines |
| AS01-A107 |
Changes in the Frequency of Extreme Summer Temperatures Over India in Current and Future Climate Scenarios |
China Satyanarayana GUBBALA#+, V. SAMBASIVARAO, Dodla V. B. RAO
K L Deemed to be University, India |
| AS01-A056 |
Synergistic Roles of La Niña and Tibetan Plateau Warming in the Extreme Southeast China Drought in Winter 2020/21 |
Zhuoyu ZENG+, Ziqian WANG#, Song YANG
Sun Yat-sen University, China |
| AS01-A038 |
Low-level Jet Observed Over the East China Sea During the Bai-u Season |
Megumi NOGUCHI1, Noriyuki NISHI2#+, Atsuyoshi MANDA3
1Japan Meteorological Agency, Japan, 2Fukuoka University, Japan, 3Mie University, Japan |
| AS01-A040 |
Interdecadal Variations of the Scandinavian Pattern |
Bo PANG1#+, Adam SCAIFE2,3, Riyu LU4, Rongcai REN4, Xiaoxuan ZHAO4
1Institute of Atmospheric Physics, Chinese Academy of Sciences, China, 2Met Office, United Kingdom, 3University of Exeter, United Kingdom, 4Chinese Academy of Sciences, China |
| AS01-A042 |
Tropical Anomalies Associated with the Interannual Variability of the Cross-equatorial Flows Over the Maritime Continent in Boreal Summer |
Xiaoxuan ZHAO1+, Riyu LU1#, Buwen DONG2, Xiaowei HONG1, Junqi LIU1, Jianqi SUN3
1Chinese Academy of Sciences, China, 2University of Reading, United Kingdom, 3Nansen-Zhu International Research Centre, China |
| AS01-A043 |
Long-term Precipitation Changes in the Baiu and Akisame Seasons in Japan Over the Past 120 Years (1901–2020) |
Hirokazu ENDO#+
Meteorological Research Institute, Japan |
| AS01-A051 |
Dynamics and Characteristics of Dry and Moist Heatwaves Over East Asia |
Ye-Won SEO1+, Kyung-Ja HA2#, Ji-Hye YEO2, Axel TIMMERMANN2, Eui-Seok CHUNG3, Christian FRANZKE2, Johnny CHAN4,5, Sang-Wook YEH6, Mingfang TING7
1IBS Center for Climate Physics, Korea, South, 2Pusan National University, Korea, South, 3Korea Polar Research Institute, Korea, South, 4Asia-Pacific Typhoon Collaborative Research Center, China, 5City University of Hong Kong, Hong Kong SAR, 6Hanyang University, Korea, South, 7Columbia University, United States |
| AS01-A048 |
Characteristics of Atmospheric Circulation Patterns Associated with the Long-duration of Heat Waves in South Korea |
Minjeong CHO+, Ha-Rim KIM, Yong-Sang CHOI#
Ewha Womans University, Korea, South |
| AS01-A074 |
Analysis of Rainfall Generation Process in East Asia by Summer Cold Wave |
Kwang-Hee HAN1+, Ho-Young KU1, Hayeon NOH1, Jee-Hoon JEONG2, Baek Min KIM1#
1Pukyong National University, Korea, South, 2Chonnam National University, Korea, South |
| AS01-A050 |
Universal Definition of Local Monsoon Onset |
Elena SUROVYATKINA1,2#+
1Potsdam Institute for Climate Impact Research, Germany, 2The Space Research Institute of the Russian Academy of Sciences, Russian Federation |
| AS01-A052 |
Summer Precipitation Extremes Over the Yellow River Loop Valley and its Link to European Blocking |
Yina DIAO1#+, Kan XU2, Peng HUANG3
1Ocean University of China, China, 2Naval Aviation University, China, 391954 PLA, China |
| AS01-A055 |
Strengthening Effect of Maritime Continent Deforestation on the Precipitation Decline Over Southern China During Late Winter and Early Spring |
Shengbiao WEI1#+, Xin WANG2, Qiang XIE2
1South China Sea Institute of Oceanology, Chinese Academy of Sciences, China, 2Chinese Academy of Sciences, China |
| AS01-A059 |
Characteristics of Precipitation and Atmospheric Environment During the Heavy Rain Event Observed on June 14-16, 2022 in the Southern Meghalaya Plateau |
Fumie MURATA1#+, Toru TERAO2, Hiambok J. SYIEMLIEH3, Laitpharlang CAJEE3, Shyam S. KUNDU4, Sayeed Ahmed CHOUDHURY5, Shameem Hassan BHUIYAN5, Fatima AKTER6, Raju GOGOI7
1Kochi University, Japan, 2Kagawa University, Japan, 3North-Eastern Hill University, India, 4North Eastern Space Applications Centre, India, 5Bangladesh Meteorological Department, Bangladesh, 6University of Dhaka, Bangladesh, 7Diphu Government College, India |
| AS01-A063 |
Physical Processes Driving Mean-state Biases in MetUM Simulations of the Summer West Pacific Subtropical High |
Jose M. RODRIGUEZ#+, Mike CULLEN
Met Office, United Kingdom |
| AS01-A060 |
Modeling the Impacts of the Urban Land-use Effects on the Heavy Precipitation Events During the Indian Summer Monsoon |
Renaud FALGA1#+, Chien WANG2
1Toulouse III - Paul Sabatier University, France, 2National Center for Scientific Research/ Université Toulouse III, France |
| AS01-A061 |
Indian Ocean Dipole and Enso’s Mechanistic Importance in Modulating the Ensuing-summer Precipitation Over Eastern China |
Yue ZHANG#+, Wen ZHOU
Fudan University, China |
| AS01-A062 |
Limited Signatures of ENSO on Future Precipitation Over Asia |
Thanh LE#+
Sejong University, Korea, South |
| AS01-A065 |
Does the Indian Monsoon Have Subseasonal Features? |
Lun DAI1#+, Bin WANG1, Mengqian LU2, Fandy Tat Fan CHENG2
1University of Hawaii, United States, 2The Hong Kong University of Science and Technology, Hong Kong SAR |
| AS01-A066 |
Higher Sensitivity of Northern Hemisphere Monsoon to Anthropogenic Aerosol Than Greenhouse Gases |
Jian CAO#+
Nanjing University of Information Science & Technology, China |
| AS01-A068 |
Different Influences of Southeastern Indian Ocean and Western Indian Ocean SST Anomalies on Eastern China Rainfall During the Decaying Summer of 2015/16 Extreme El Niño |
Jiepeng CHEN1#+, Jin-Yi YU2, Xin WANG1, Tao LIAN3
1Chinese Academy of Sciences, China, 2University of California, Irvine, United States, 3State Oceanic Administration, China |
| AS01-A069 |
Impacts of Regional SST Warming on the Western North Pacific Under Global Warming |
Chao-An CHEN1#+, Huang-Hsiung HSU2, Hsin-Chien LIANG2, Yu-Len CHEN2, Ping-Gin CHIU3, Chia-Ying TU2
1National Science and Technology Center for Disaster Reduction, Taiwan, 2Academia Sinica, Taiwan, 3University of Bergen, Norway |
| AS01-A070 |
Tropical Stratospheric Forcings Weaken the Response of the East Asian Winter Temperature to ENSO |
Ruhua ZHANG1+, Wen ZHOU1#, Wenshou TIAN2, Yue ZHANG1
1Fudan University, China, 2Lanzhou University, China |
| AS01-A089 |
Roles of the North Indian Ocean SST and Tropical North Atlantic SST in the Latitudinal Extension of the Anomalous Western North Pacific Anticyclone During the El Niño Decaying Summer |
Juan FENG#+
Chinese Academy of Sciences, China |
| AS01-A075 |
Decadal-scale Changes in the Seasonal Transition Patterns of the Asian Summer Monsoon and the South China Sea Tropical Cyclone Frequency During May |
Yin-Min CHO#+, Mong-Ming LU, Chung-Hsiung SUI
National Taiwan University, Taiwan |
| AS01-A076 |
Detection and Attribution of Changes in the Mean and Peak Near-surface Wind Speed over Various Regions of China |
Hairong LI#+, Kaiqiang DENG, Song YANG
Sun Yat-sen University, China |
| AS01-A077 |
Analysis of Long-term Trends of Water Vapor Transport in the Major Water Vapor Channel on the Southeastern Qinghai-Tibet Plateau |
Dengxu ZHANG#+
Lanzhou University, China |
| AS01-A078 |
Evaluation of Performance of Atmospheric Simulations Using Community Atmospheric General Circulation Model Over Summer Monsoon Regions |
Venkatraman PRASANNA1#+, Preethi BHASKAR2, Jai-Ho OH3, Inwon KIM4
1Meteorological Service Singapore, Singapore, 2Indian Institute of Tropical Meteorology, India, 3Nano C&W, Korea, South, 4Pukyong National University, Korea, South |
| AS01-A080 |
Increasing Trend in the Duration of the Indian Monsoon Season |
Aneesh SUNDARESAN1#+, Tamas BODAI2, Sijikumar S3
1Pusan National University, Korea, South, 2IBS Center for Climate Physics, Korea, South, 3Indian Space Research Organisation, India |
| AS01-A082 |
On the Use of an Upper-level Vorticity for Trough Prediction Over Indochina Peninsula (IP) Sub-region with a Coupled WRF-ROMS Model |
Kritanai TORSRI#+, Rati SAWANGWATTANAPHAIBUN , Apiwat FAIKRUA, Pattarapoom PEANGTA, Thippawan THODSAN, Kanoksri SARINNAPAKORN
Ministry of Higher Education, Science, Research and Innovation, Thailand |
| AS01-A083 |
Quantifying Characteristics of Intraseasonal Summer Rainfall in Thailand and Associated Moisture Transport During Active MJO and ENSO Warm Phase |
Pattarapoom PEANGTA+, Kritanai TORSRI#, Apiwat FAIKRUA, Rati SAWANGWATTANAPHAIBUN , Thippawan THODSAN, Kanoksri SARINNAPAKORN
Ministry of Higher Education, Science, Research and Innovation, Thailand |
| AS01-A093 |
Risk Assessments of Indian Summer Monsoon Rainfall Extremes Using a Max-stable Process Based Modelling Framework |
Athira K1#+, Sarmistha SINGH1, Ash ABEBE2
1Indian Institute of Technology Palakkad, India, 2Auburn University, United States |
| AS01-A085 |
Prediction Skill of WRF-ROMS in Ensemble Forecasting with Different Microphysics Parametrizations: A Sensitivity Analysis of Rainfall Prediction in Thailand Related to Tropical Storm Events in 2020 |
Apiwat FAIKRUA+, Kritanai TORSRI#, Pattarapoom PEANGTA, Rati SAWANGWATTANAPHAIBUN , Thippawan THODSAN, Kanoksri SARINNAPAKORN
Ministry of Higher Education, Science, Research and Innovation, Thailand |
| AS01-A088 |
Unprecedented Extreme Temperature Variability of Inter-/intra-monthly Timescales in East Asia During the 2022/23 Winter Season |
Ho-Young KU+, Hayeon NOH, Baek Min KIM#
Pukyong National University, Korea, South |
| AS01-A086 |
Different Mechanisms for Daytime, Nighttime, and Compound Heatwaves: A Study in Southern China |
Ming LUO1,2#+, Gabriel LAU2, Zhen LIU3
1Sun Yat-sen University, China, 2The Chinese University of Hong Kong, Hong Kong SAR, 3IBS Center for Climate Physics, Korea, South |
| AS01-A090 |
Climate Responses to Tambora-size Volcanic Eruption and the Impact of Warming Climate |
Linshan YANG1+, Chaochao GAO1#, Fei LIU2
1Zhejiang University, China, 2Sun Yat-sen University, China |
| AS01-A091 |
Weakening of Decadal Variation of Northern Hemisphere Land Monsoon Rainfall Under Global Warming |
Yeyan JIANG1#+, Juan LI1, Zhiwei ZHU1, Bin WANG2
1Nanjing University of Information Science & Technology, China, 2University of Hawaii, United States |
| AS01-A094 |
Excessive Southern China Spring Rainfall Promoted by Multi-year El Niño Events |
Wenxiu ZHONG1#+, Yuting WU1, Song YANG1, Tianjiao MA2, Qingyu CAI2, Qian LIU1
1Sun Yat-sen University, China, 2Chinese Academy of Sciences, China |
| AS01-A095 |
Interdecadal Variation in Available Potential Energy of Stationary Eddies in the Midlatitude Northern Hemisphere in Response to the North Pacific Gyre Oscillation |
Marco Yu Ting LEUNG1#+, Dongxiao WANG1, Wen ZHOU2
1Sun Yat-sen University, China, 2Fudan University, China |
| AS01-A096 |
The Accelerating Increase of Dangerous Compound Heatwaves in China Under Different Warming Levels |
Wei DONG#+, Xiaojing JIA
Zhejiang University, China |
| AS01-A101 |
The Spatio-temporal Pattern of Asian Summer Monsoon During Termination II Recorded by the Chinese Stalagmite δ18O |
Wei JIA1#+, Pingzhong ZHANG2, Xianfeng WANG1, Shaoneng HE1, Shufang YUAN1, Guangxin LIU3
1Nanyang Technological University, Singapore, 2Lanzhou University, China, 3Yunnan University, China |
| AS01-A099 |
Interannual Variation and Prediction of Wintertime Precipitation in Central Asia |
Xinhai CHEN#+, Xiaojing JIA
Zhejiang University, China |
| AS01-A100 |
Oxygen Isotope Variability of Rainwater, Dripwater, and Modern Calcite Respond to ENSO Based on 11 Years’ Monitoring in Yuhua Cave, Southeast China |
Wanyin QIU1,2+, Xiuyang JIANG2#, Xianfeng WANG1
1Nanyang Technological University, Singapore, 2Fujian Normal University, China |
| AS01-A103 |
Projected Changes in Temperature and Rainfall Extremes Over India Using Bias-corrected CMIP6 Simulations |
Koteswararao KUNDETI1,2#+, Vinod Kumar BURI3, Lakshmi Kumar T.V.4, Jasti CHOWARY5, Srinivas DESAMSETTI6
1Azim Premji University, India, 2National Center of Meteorology, United Arab Emirates, 3National Institute of Technology Rourkela, India, 4SRM Institute of Science and Technology, India, 5Indian Institute of Tropical Meteorology, India, 6Ministry of Earth Sciences, India |
| AS01-A104 |
Impact of Heat Stress on the People Working in the Coastal Cities of India Due to Climate Change |
Lakshmi Kumar T.V.1#+, Bharath J1, Walter LEAL2, Humberto BARBOSA3, Koteswararao KUNDETI4,5
1SRM Institute of Science and Technology, India, 2Hamburg University of Applied Sciences, Germany, 3Universidade Federal da Alagoes, Brazil, 4Azim Premji University, India, 5National Center of Meteorology, United Arab Emirates |
| AS01-A106 |
Intraseasonal Variability of the East Asian Subtropical Westerly Jet: Characteristics, Mechanisms and Impacts on Extremes |
Jiacan YUAN#+
Fudan University, China |
| AS01-A110 |
Dynamical Processes Controlling the Evolution of Early‐summer Cut‐off Lows in Northeast Asia |
Yang ZHANG1#+, Yu NIE2
1Nanjing University, China, 2China Meteorological Administration, China |
| AS01-A112 |
Western Himalayan Extreme Precipitation Events in High Asia Refined Analysis: Climatology and Variability |
Rohtash SAINI#+, Raju ATTADA
Indian Institute of Science Education and Research Mohali, India |
| AS01-A113 |
Can Tibetan Plateau Snow Depth Influence the Interannual Association Between Tropical Indian Ocean Sea Surface Temperatures and Rapidly Intensifying Typhoons? |
Haikun ZHAO#+
Nanjing University of Information Science & Technology, China |
| AS01-A117 |
Can Volcanos be Linked to Extreme Monsoons in Asian Countries? |
Alvin WONG1, Amitava ROY2, Wyss YIM3, Indrani ROY4#+
1Volcanoes Study Group, Hong Kong SAR, 2SmartFlow Pneumatics, United Kingdom, 3The University of Hong Kong, Hong Kong SAR, 4University College London, United Kingdom |
| AS02 Climate Change and Tropical Climatic Hazards in Asia Oceania |
| Abstract ID |
Abstract Title |
Authors |
| AS02-A015 |
WMO GPC LRFs Support for "Climate Information Services for Resilient Development Planning in Vanuatu" |
Yuriy KULESHOV1,2#+
1Bureau of Meteorology, Australia, 2Royal Melbourne Institute of Technology University, Australia |
| AS02-A001 |
Top Ten Reasons for the Necessity of Global Adaptation to Climate Change |
Menachem LURIA#+
The Hebrew University of Jerusalem, Israel |
| AS02-A003 |
Convection-permitting Simulations Reveal Robust Intensification of Tropical Cyclone Extreme Precipitation Due to Anthropogenic Warming |
Minkyu LEE1#+, Seung-Ki MIN1, Dong-Hyun CHA2
1Pohang University of Science and Technology, Korea, South, 2Ulsan National Institute of Science and Technology, Korea, South |
| AS02-A022 |
Uncertainty in Multidecadal and Future Changes of Tropical Pacific SST Zonal Gradient: Internal Variability and Model Spread |
Lu DONG#+
Ocean University of China, China |
| AS02-A005 |
The Intensification of Consecutive Three Tropical Cyclones Passing Over a Warm Ocean Eddy in the South China Sea |
Xi LUO1+, Wei YANG2, Lei YANG3, Dongxiao WANG1#
1Sun Yat-sen University, China, 2Key Laboratory of South China Sea Meteorological Disaster Prevention and Mitigation of Hainan Province, China, 3Chinese Academy of Sciences, China |
| AS02-A008 |
Reversal of Tropical Cyclone Genesis Frequency Anomaly Over the Western North Pacific from Boreal Summer to Autumn |
Yuhao CAI+, Song YANG#
Sun Yat-sen University, China |
| AS02-A014 |
Optimising Satellite Altimetry Data for Studying the Interaction of Ocean and Atmosphere |
Noor Nabilah ABDULLAH#+, Dudy Darmawan WIJAYA, Fathin NURZAMAN, Meilano IRWAN, Wedyanto KUNTJORO
Bandung Institute of Technology, Indonesia |
| AS02-A007 |
Record-breaking Rainfall Accumulations in Eastern China Produced by Typhoon In-fa (2021) |
Xin HUANG1#+, Johnny CHAN2,3, Ruifen ZHAN4, Zifeng YU5,2, Rijin WAN5
1Shanghai Typhoon Institute, China Meteorological Administration, China, 2Asia-Pacific Typhoon Collaborative Research Center, China, 3City University of Hong Kong, Hong Kong SAR, 4Fudan University, China, 5China Meteorological Administration, China |
| AS02-A011 |
Impact of the North Atlantic Sea Surface Temperature Tripole on the Northwestern Pacific Weak Tropical Cyclone Frequency |
Rui JIN#+, Hui YU
Shanghai Typhoon Institute of China Meteorological Administration, China |
| AS02-A009 |
Arctic Sea Ice Promoting Seasonal Prediction Capability of the Early Autumn Tropical Cyclone Formation Frequency Over the Western North Pacific |
Peng ZHANG#+
Fudan University, China |
| AS02-A012 |
Seasonal Tropical Cyclone Landfall Forecasts Along the East Asia Coast |
Johnny CHAN1,2#+
1Asia-Pacific Typhoon Collaborative Research Center, China, 2City University of Hong Kong, Hong Kong SAR |
| AS02-A013 |
Changes to Tropical Cyclone Tracks Over Southeast Asia in a Warming Climate |
Andra GARNER1#+, Dhrubajyoti SAMANTA2, Mackenzie WEAVER1, Benjamin HORTON2,3
1Rowan University, United States, 2Nanyang Technological University, Singapore, 3Rutgers University, United States |
| AS02-A021 |
Long-term Trend of Tropical Cyclone Rapid Intensification Over the Western North Pacific |
Haeun JO#+
Ulsan National Institute of Science and Technology, Korea, South |
| AS02-A016 |
Pairing Monitoring Datasets with Probabilistic Forecasts to Provide Early Warning of Drought in Australia |
Jessica BHARDWAJ#+
Bureau of Meteorology, Australia |
| AS02-A017 |
Monitoring and Predicting Marine Heatwaves in Vanuatu |
Jessica BHARDWAJ#+
Bureau of Meteorology, Australia |
| AS02-A018 |
Long-term Trends in Cyclogenesis Over North Indian Ocean and the Role of Equatorial Waves and MJO |
Kiranmayi LANDU#+, Lokendar TIRUNAHARI
Indian Institute of Technology Bhubaneswar, India |
| AS02-A019 |
Reprocessing of Global Satellite Mapping of Precipitation (GSMaP) Product |
Takuji KUBOTA#+, Munehisa YAMAMOTO, Moeka YAMAJI
Japan Aerospace Exploration Agency, Japan |
| AS02-A020 |
A Machine-learning Aided Quantile-mapping Method for Calibration of Satellite Rainfall Estimates |
Wee Leng TAN#+, Thea TURKINGTON
Centre for Climate Research Singapore, Singapore |
| AS03 Application of Cloud-resolving Model Simulations for Studying Cloud and Related Physical Processes in Climate |
| Abstract ID |
Abstract Title |
Authors |
| AS03-A001 |
Response of Convection to Forcing That Creates a Cold Pool |
Masaki SATOH#+, Shunnosuke NAKAI , Jun HIRAIWA
The University of Tokyo, Japan |
| AS03-A005 |
Aerosol Susceptibilities on the Wintertime Stratocumulus Clouds Over the Northwest Pacific Ocean |
Chung-Kai WU+, Jen-Ping CHEN#
National Taiwan University, Taiwan |
| AS03-A003 |
Superparameterization Improves Simulations of Mesoscale Convective Systems in E3SM |
Guangxing LIN1#+, L. Ruby LEUNG2
1Chinese Academy of Sciences, China, 2Pacific Northwest National Laboratory, United States |
| AS03-A006 |
Role of Cloud Subgrid-scale Structure in Modulating Clouds Viewed by ISCCP, MODIS, and MISR Simulators |
Xiaocong WANG#+
Chinese Academy of Sciences, China |
| AS03-A008 |
The Role of Convection on Troposphere-stratosphere Interactions in Radiative-convective Equilibrium Simulations |
Chien-Ming WU1#+, Tzung-Yu TSAI1, Jin-De HUANG1, Shih-Hao SU2
1National Taiwan University, Taiwan, 2Chinese Culture University, Taiwan |
| AS03-A009 |
CRM and LES Estimates of Tangent Linear Convective Responses |
Steven SHERWOOD1,2#+, Timothy RAUPACH1, Chimene DALEU3, Robert PLANT3, Yi-Ling HWONG4
1University of New South Wales, Australia, 2ARC Centre of Excellence for Climate System Science, Australia, 3Reading University, United Kingdom, 4Institute of Science and Technology Austria, Austria |
| AS03-A010 |
Effects of Diurnal Ocean Mixing on Convective Aggregation Under Different Wind Regimes in VVM with KPP |
Jin-De HUANG#+, Chien-Ming WU
National Taiwan University, Taiwan |
| AS03-A011 |
A Convective Cell Database for Cloud Process Study |
Xiaowen LI1#+, Monir SHARKER1, MD Rafsan JANI1, Wei-Kuo TAO2
1Morgan State University, United States, 2NASA Goddard Space Flight Center, United States |
| AS03-A014 |
Comparison of ERA-5, JRA-55 and MERRA-2 on Diurnal Cycle of Precipitation and Associated Physical Processes |
Yanjie LIU1#+, Xiaocong WANG2, Yimin LIU2
1University of Chinese Academy of Sciences, China, 2Chinese Academy of Sciences, China |
| AS03-A012 |
A Critical Evaluation of Top-hat Approximation in Shallow Convection at Different Horizontal Scales |
Zhao YAXIN1#+, Xiaocong WANG2, Yimin LIU2, Guoxiong WU2
1University of Chinese Academy of Sciences, China, 2Chinese Academy of Sciences, China |
| AS03-A015 |
Effect of the Low-level Jets on the Movement of the Mei-yu Front |
Mu-Qun HUANG#+, Pay-Liam LIN
National Central University, Taiwan |
| AS03-A016 |
The Model Predictability of Consecutive ENSO Events: The Implication on Extreme Weather Prediction |
Hann-MIng JUANG#+, Pay-Liam LIN
National Central University, Taiwan |
| AS04 Impact of Fires on Air Quality and Climate: Processes, Field and Modeling Studies |
| Abstract ID |
Abstract Title |
Authors |
| AS04-A005 |
Shedding Light on Ionic Strength Effects on Multiphase Reactions of Atmospheric Oxidants with Methoxyphenols as Proxies for Wood Smoke Pollution |
Sasho GLIGOROVSKI#+
Chinese Academy of Sciences, China |
| AS04-A008 |
Saccharide in PM2.5 at the Remote Sites of Southwest China |
Zhenzhen WANG, Di WU, Qing LI, Jianmin CHEN#+
Fudan University, China |
| AS04-A009 |
Secondary Organic Aerosol Formation from Biomass Burning Derived Compounds |
Lin DU#+
Shandong University, China |
| AS04-A011 |
Pyrocumulonimbus and its Role in the Climate System: What is Known and Unknown? |
David PETERSON1#+, Edward HYER1, James CAMPBELL1, Melinda BERMAN2, William JULSTROM3, Ghassan TAHA4, Christopher CAMACHO1, Laura THAPA5, Theodore MCHARDY6, Pablo SAIDE5
1Naval Research Laboratory, United States, 2University of Illinois Urbana-Champaign, United States, 3University of Iowa, United States, 4NASA Goddard Space Flight Center, United States, 5University of California, Los Angeles, United States, 6American Society for Engineering Education, United States |
| AS04-A013 |
Worldwide Pyrocumulonimbus Inventory Reveals the Frequency, Variability, and Stratospheric Impact of Smoke-Infused Storms During 2013-2021 |
David PETERSON1#+, Melinda BERMAN2, Michael FROMM1, William JULSTROM3, René SERVRANCKX4, Edward HYER1, James CAMPBELL1, Theodore MCHARDY5
1Naval Research Laboratory, United States, 2University of Illinois Urbana-Champaign, United States, 3University of Iowa, United States, 4PyroCb Community Member, Canada, 5American Society for Engineering Education, United States |
| AS04-A010 |
The Gaseous Nitro-phenolic Compounds in the Background Air of South China: Source, Formation and Impacts on Air Quality |
Zhe WANG#+
The Hong Kong University of Science and Technology, Hong Kong SAR |
| AS04-A012 |
Photochemical Air Pollution in Highly Urbanized Subtropical Regions: From Micro Environments to Urban-terrestrial-oceanic Interactions |
Tao WANG#+
The Hong Kong Polytechnic University, China |
| AS04-A015 |
Secondary Organic Aerosol Formation from Wood Burning Emissions: Contribution and Chemical Evolution |
Kun LI#+, Lin DU
Shandong University, China |
| AS04-A016 |
Prolonged Lifetime of Particulate-bound Polycyclic Aromatic Hydrocarbons with Coating of Secondary Aerosols During Photochemical Aging of Biomass Burning Plumes |
Xinming WANG1#+, Wei DENG1, Tengyu LIU2, Zheng FANG3, Yanli ZHANG4, Wei SONG1, Yinon RUDICH3, Jianmin CHEN5, Abdelwahid MELLOUKI6,7, Christian GEORGE8
1Chinese Academy of Sciences, China, 2Nanjing University, China, 3Weizmann Institute of Science, Israel, 4Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, China, 5Fudan University, China, 6Mohammed VI Polytechnic University, Morocco, Morocco, 7Shandong University, China, 8National Center for Scientific Research - Catalysis and Environmental Research Institute, France |
| AS04-A017 |
Elemental Characterization of Atmospheric Fine Particles Released from Urban Fires in Hong Kong |
Tao LI+, Hanzhe CHEN, Jianzhen YU#
The Hong Kong University of Science and Technology, Hong Kong SAR |
| AS04-A028 |
Ammonia Enhancement from Wildfire |
Le KUAI1#+, Olga KALASHNIKOVA2, Karen CADY-PERERIA3, William PORTER4
1Jet Propulsion Laboratory - California Institute of Technology, United States, 2California Institute of Technology, United States, 3Atmospheric and Environmental Reserch, United States, 4University of California, Riverside, United States |
| AS04-A021 |
Evolution of Indoor Cooking Emissions Captured by SESI-HRMS |
Xue LI1#+, Sasho GLIGOROVSKI2, Jiafa ZENG3, Majda MEKIC4
1Jinan University, China, 2Chinese Academy of Sciences, China, 3University Children's Hospital Basel, China, 4Leibniz Institute for Tropospheric Research, Slovenia |
| AS04-A022 |
The Combustion Conversion Coefficient for Constructing Open Biomass Burning Emission Inventory Based on Satellite FRE |
Jian WU#+
China University of Geosciences, China |
| AS04-A023 |
Contribution of Household Stoves to Atmospheric Ammonia and Nitrous Acid: Insights from Isotopes |
Yang ZENG#+
Shandong University, China |
| AS04-A024 |
Analysis of Open Bio-mass Burning in China and its Impacts on Air Quality Forecasting |
Sunling GONG#+
China Meteorological Administration, China |
| AS04-A025 |
Cases Study of 2009 Australian Black Saturday and 2003 Siberian Taiga Fires as Seen by MIPAS Instrument |
Alexandra LAENG#+
Karlsruhe Institute of Technology, Germany |
| AS04-A027 |
Open Biomass Burning Emissions and Their Contribution to Ambient Formaldehyde in Guangdong Province, China |
Chunlin ZHANG, Jiangyong LI, Wenlong ZHAO, Qian YAO, Hao WANG#+, Boguang WANG
Jinan University, China |
| AS05 Cities, Extreme Weather, and Climate Change |
| Abstract ID |
Abstract Title |
Authors |
| AS05-A001 |
Investigate Extreme Precipitation in Multiple Urban Systems |
Fei CHEN1#+, Cenlin HE1, Quang-Van DOAN2, Dev NIYOGI3,4, Liping DI5
1National Center for Atmospheric Research, United States, 2University of Tsukuba, Japan, 3The University of Texas at Austin, United States, 4Purdue University, United States, 5George Mason University, United States |
| AS05-A003 |
Quantifying the Benefits of BIPV Windows in Urban Environment Under Climate Change: A Comparison of Three Chinese Cities |
Liutao CHEN#+, Jiachuan YANG
The Hong Kong University of Science and Technology, Hong Kong SAR |
| AS05-A002 |
Effect of Green-blue Space on Urban Thermal Environment and Outdoor Comfort: A Field Study in Hong Kong |
Xuan CHEN+, Han WANG, Jiachuan YANG#
The Hong Kong University of Science and Technology, Hong Kong SAR |
| AS05-A004 |
Energy Changes During Urban Heatwaves and the Impact on Human Comfort |
Yizhao WEI+, Han CHEN, Jeanne Jinhui HUANG#
Nankai University, China |
| AS05-A013 |
Fine-scale Climate Change Information to Assist Decision Making: The CORDEX SEA Urban Climate Initiative |
Quang-Van DOAN1#+, Fredolin TANGANG2, Faye Abigail CRUZ3, Julie Mae DADO3, Liew JUNENG2, Jing Xiang CHUNG4, Phan VAN-TAN5, Thanh NGO-DUC6, Thanh NGUYEN-XUAN6, Dang-An TRAN7, Ngoc-Dang TRAN8, Jerasron SANTISIRISOMBOON9, Patama SINGHRUCK10, Jaruthat SANTISIRISOMBOON9, Edvin ALDRIAN11, Dodo GUNAWAN12, Donaldi PERMANA12, Srivatsan VIJAYARAGHAVAN13, Matthias ROTH13, Dung PHUNG14, John MCGREGOR15, Hiroyuki KUSAKA1, Masaru INATSU16, Tetsuya TAKEMI17, Lingbo XUE1, Anurag DIPANKAR18, Rafiq HAMDI19, Dev NIYOGI20, Cenlin HE21, Fei CHEN21
1University of Tsukuba, Japan, 2Universiti Kebangsaan Malaysia, Malaysia, 3Manila Observatory, Philippines, 4Universiti Malaysia Terengganu, Malaysia, 5Vietnam National University, Viet Nam, 6University of Science and Technology of Hanoi, Viet Nam, 7Thuyloi University, Viet Nam, 8Ho Chi Minh City Medicine and Pharmacy University, Viet Nam, 9Ramkhamhaeng University, Thailand, 10Chulalongkorn University, Thailand, 11Agency for Assessment and Application of Technology, Indonesia, 12Indonesian Agency for Meteorology, Climatology and Geophysics, Indonesia, 13National University of Singapore, Singapore, 14The University of Queensland, Australia, 15Commonwealth Scientific and Industrial Research Organisation, Australia, 16Hokkaido University, Japan, 17Kyoto University, Japan, 18ETH Zurich, Switzerland, 19Royal Meteorological Institute of Belgium, Belgium, 20The University of Texas at Austin, United States, 21National Center for Atmospheric Research, United States |
| AS05-A008 |
An Ethical Framework for Climate Intervention Research and Potential Scaling |
Mark SHIMAMOTO#+, Billy WILLIAMS, Janice LACHANCE, Brooks HANSON
American Geophysical Union, United States |
| AS05-A012 |
Performance Evaluation of a Land-surface-physics-based Downscaling Approach for Urban Thermal Environment Prediction |
Lingbo XUE1+, Quang-Van DOAN1#, Hiroyuki KUSAKA1, Cenlin HE2, Fei CHEN2
1University of Tsukuba, Japan, 2National Center for Atmospheric Research, United States |
| AS05-A014 |
Representation of the Urban Boundary Layer Over Singapore in 100m uSINGV |
Song CHEN1#+, Pratiman PATEL2, Anurag DIPANKAR3, Matthias ROTH2, Humphrey LEAN4, Hugh ZHANG5, Aurel MOISE1
1Centre for Climate Research Singapore, Singapore, 2National University of Singapore, Singapore, 3ETH Zurich, Switzerland, 4Met Office, United Kingdom, 5CCRS, Singapore |
| AS05-A016 |
Human-perceived Urban Heat Islands (UHIs) in China: A Comparison with Surface and Canopy UHIs |
Hui ZHANG+, Ming LUO#
Sun Yat-sen University, China |
| AS05-A017 |
Impact of Urbanization and Regional Effects of Climate Change on the Temperature Changes Over an Eastern Indian Tropical City: A Modeling Perspective |
Nandini G#+, V. VINOJ
Indian Institute of Technology Bhubaneswar, India |
| AS05-A018 |
Evolving Urban Heat Island in the Era of Climate Change: A Study Over a Tropical Twin City Region in Eastern India |
Soumya Satyakanta SETHI#+, V. VINOJ
Indian Institute of Technology Bhubaneswar, India |
| AS05-A020 |
The Importance of Land Cover in O(100 m) Grid Length Numerical Weather Prediction – A Pearl River Delta Urban Mega-conglomeration Heat Wave Case Study |
Lewis BLUNN1#, Kalli FURTADO1+, Jon SHONK1, Yali LUO2, Andrew HARTLEY1, Mathew LIPSON3
1Met Office, United Kingdom, 2Nanjing University of Information Science & Technology, China, 3Bureau of Meteorology, United Kingdom |
| AS05-A021 |
WRF-Chem Modelling of CO2 Transport in St. Petersburg Megacity |
Georgy NEROBELOV1#+, Yuri TIMOFEEV2, Sergei SMYSHLYAEV3, Stephany FOKA2
1O3Lab, Saint-Petersburg State University, Russian Federation, 2Saint-Petersburg State University, Russian Federation, 3Russian State Hydrometeorological University, Russian Federation |
| AS05-A022 |
Estimation of Anthropogenic CO2 Emissions of St. Petersburg Megacity by Different Methods |
Yuri TIMOFEEV1, Georgy NEROBELOV2#+, Anatolii POBEROVSKII1
1Saint-Petersburg State University, Russian Federation, 2O3Lab, Saint-Petersburg State University, Russian Federation |
| AS05-A023 |
Characteristics of WRF Coupled Urban Canopy Model Using Local Climate Zone-based Urban Classifications |
Cheng-Pei YANG1+, Fang-Yi CHENG1#, Yu-Cheng CHEN2, Tzu-Ping LIN3
1National Central University, Taiwan, 2Nanhua University, Taiwan, 3National Cheng Kung University, Taiwan |
| AS06 Assimilation of Space- and Ground-based Water Vapor Observations for Weather Forecasting and GNSS Applications |
| Abstract ID |
Abstract Title |
Authors |
| AS06-A001 |
Investigating the Optimal Spatial Resolution for Assimilating Ground-based GNSS Tropospheric Products to Improve Atmospheric Humidity Field |
Haobo LI1#+, Suelynn CHOY1, Safoora ZAMINPARDAZ1, Brett CARTER1, Kefei ZHANG2, Xiaoming WANG3
1Royal Melbourne Institute of Technology University, Australia, 2China University of Mining and Technology, China, 3Chinese Academy of Sciences, China |
| AS06-A002 |
Enhancing the Observation Accuracy of Sentinel-3 OLCI Water Vapor Estimates Based on Ground-based GPS Measurements |
Jiafei XU1+, George Zhizhao LIU2#
1Hong Kong Polytechnic University, Hong Kong SAR, 2The Hong Kong Polytechnic University, Hong Kong SAR |
| AS06-A003 |
Investigating the Impact of Assimilation of MODIS Calibrated PWV on Numerical Weather Prediction |
Yangzhao GONG1+, George Zhizhao LIU1#, K.K. HON2, P.W. CHAN2
1The Hong Kong Polytechnic University, Hong Kong SAR, 2Hong Kong Observatory, Hong Kong SAR |
| AS06-A004 |
Fusing the ERA5 and MODIS Products to Generate Daily 1 km Seamless Precipitable Water Vapor Across the Continental Europe Based on the Generative Adversarial Network |
Jinhua WU+, Linyuan XIA#, Ting On CHAN
Sun Yat-sen University, China |
| AS06-A005 |
A Study on Humidity Information Application to Enhance the GNSS-RO Quality Control in the KIM Data Assimilation System |
Jeon-Ho KANG#+, In-Hyuk KWON
Korea Institute of Atmospheric Prediction Systems, Korea, South |
| AS06-A006 |
Detection of Tropical Cyclone Seroja Based on Precipitable Water Vapor from Indonesian CORS Data |
Nabila PUTRI1#+, Dudy WIJAYA1, Muhammad Rais ABDILLAH1, Sidik WIBOWO2
1Institut Teknologi Bandung, Indonesia, 2Badan Informasi Geospasial, Indonesia |
| AS06-A007 |
Improving Afternoon Thunderstorm Prediction Over Northern Taiwan with the Assimilation of Ground-based Observation |
Yi-Pin CHANG1+, Shu-Chih YANG1#, Hsiang-Wen CHENG1, Ya-Ting TSAY2, Jing-Shan HONG2, Yu-Chi LI2
1National Central University, Taiwan, 2Central Weather Bureau, Taiwan |
| AS06-A008 |
Towards the Next Generation Real-time Retrieval of Precipitable Water Vapor – Algorithm and Performance Evaluation |
Peng SUN1#+, Kefei ZHANG1, Suqin WU1, Moufeng WAN1, Dantong ZHU2, Longjiang LI1, Minghao ZHANG1
1China University of Mining and Technology, China, 2North China University of Water Resources and Electric Power, China |
| AS07 General Session for Atmospheric Sciences |
| Abstract ID |
Abstract Title |
Authors |
| AS07-A005 |
Objective Climate Predictions of Summer Temperatures in South Korea Based on CNN and GNN |
Jinyoung RHEE#+, Uran CHUNG, Kyoungwon PARK, Soo-Jin SOHN
APEC Climate Center, Korea, South |
| AS07-A035 |
A 4DIAU Scheme for the KIM Data Assimilation System |
Wonho KIM#+, Adam CLAYTON, In-Hyuk KWON
Korea Institute of Atmospheric Prediction Systems, Korea, South |
| AS07-A010 |
A Wind-dependent Parameterization for Ocean Sea Surface Albedo in FIO-ESM V2.0 Simulations |
Xueyi JING1#+, Lanning WANG2, Zhenya SONG3
1College of Global Change and Earth System Science, Beijing Normal University, China, 2Beijing Normal University, China, 3Ministry of Natural Resources, China |
| AS07-A016 |
Role of the Spring Southeastern Indian Ocean Warming in Bridging the Indian Ocean Dipole and Subsequent ENSO |
Yue ZHONG+, Wenshi LIN, Tuantuan ZHANG#, Shuyan WU
Sun Yat-sen University, China |
| AS07-A013 |
Predicting Ambient NH3 Concentrations Based on the Extra Trees with Time Lag and Parcel Tracking Functions |
Chin Yu HSU#+
Ming Chi University of Technology, Taiwan |
| AS07-A011 |
Offshore Wind Resource Assessment by Characterizing Weather Regimes Based on Self-organizing Map |
Shangshang YANG1, Huiling YUAN1#+, Li DONG2
1Nanjing University, China, 2Southern University of Science and Technology, China |
| AS07-A012 |
Optimization of Air Mass Factor Calculation for GOSAT-GW Satellite NO2 Observation |
Ayano NAKAMURA1#+, Tomohiro SATO1, Tamaki FUJINAWA2, Yasuko KASAI3
1National Institute of Information and Communications Technology, Japan, 2National Institute for Environmental Studies, Japan, 3Tokyo Instutute of Technology, Japan |
| AS07-A015 |
Wind and Stability in the Lower Troposphere Revealed in High-resolution Radiosonde Data in South Korea |
Ye-Seul LEE#, Hye-Yeong CHUN+
Yonsei University, Korea, South |
| AS07-A039 |
Evaluation of High-resolution Crop Model Meteorological Forcing Datasets at Regional Scale: Air Temperature and Precipitation Over Major Land Areas of China |
Qiuling WANG1+, Wei LI2#, Chan XIAO2, Wanxiu AI2
1National Climate Center, China Meteorological Administration, China, 2China Meteorological Administration, China |
| AS07-A047 |
Doppler Lidar Based Observation Nudging Towards Improving the Model Accuracy in Predicting Major Weather Variables |
Sridhara NAYAK#+, Isao KANDA
Japan Meteorological Corporation, Japan |
| AS07-A028 |
Methods to Evaluate Dipolar Climate Patterns |
Sandro F. VEIGA#+, Huiling YUAN
Nanjing University, China |
| AS07-A020 |
Major Factors Governing the Trends and Interannual Variability in the Occurrences of Mixed Rossby-Gravity Wave Events |
Mehak N.A.#+, Shreya KESHRI, Suhas ETTAMMAL
Indian Institute of Science Education and Research Pune, India |
| AS07-A045 |
A Survey of Mixed Rossby-gravity Waves and Quantification of Their Association with Extratropical Disturbances |
Shreya KESHRI#+, Suhas ETTAMMAL
Indian Institute of Science Education and Research Pune, India |
| AS07-A025 |
Diagnosis of Data Assimilation Effect on East Asian Forecast of the Global NWP Model Through OSSE |
Hyerim KIM+, Kyung-Hee SEOL#, In-Hyuk KWON, Hui-Nae KWON, Hyun-Jun HAN
Korea Institute of Atmospheric Prediction Systems, Korea, South |
| AS07-A027 |
Development of Global Observing System Simulation Experiment (OSSE) System Using Korean Integrated Model (KIM) : Description and Preliminary Result |
Hyun-Jun HAN#+, Jeon-Ho KANG, In-Hyuk KWON
Korea Institute of Atmospheric Prediction Systems, Korea, South |
| AS07-A034 |
Estimation of Planetary Boundary Layer Height Based on Radiosonde Data |
Junsik KIM+, Junshik UM#
Pusan National University, Korea, South |
| AS07-A050 |
Regional and Seasonal Variations of the Double-ITCZ Bias in CMIP6 Models |
Baijun TIAN1,2#+
1Jet Propulsion Laboratory, California Institute of Technology, United States, 2University of California, Los Angeles, United States |
| AS07-A036 |
Introduction of Research Performance During 2017-2021 in NIMS/KMA |
Youngmi KIM#+, Jinyoung KO, Heon Woo KIM, Ha-Kwom LIM
National Institute of Meteorological Research/Korea Meterological Research, Korea, South |
| AS07-A037 |
Hydrothermal Factors Influence on Spatial-temporal Variation of Evapotranspiration-precipitation Coupling Over Climate Transition Zone of North China |
Ze Su YANG#+
Chengdu University of Information Technology, China |
| AS07-A040 |
The Effect on the Wind of Coastal Urban Buildings Using LES Model |
Jiseon KIM1#+, Soon-Hwan LEE1, Soon-Young PARK2, JungWoo YOO1
1Pusan National University, Korea, South, 2Daegu National University of Education, Korea, South |
| AS07-A042 |
Predictability of the Western Pacific Pattern in the APCC Multi-model Ensemble |
Joong-Bae AHN1#+, Eung-Sup KIM2, Vladimir KRYJOV3
1Pusan National University, Korea, South, 2National Institute of Agricultural Sciences, Korea, South, 3Hydrometcenter of Russia, Russian Federation |
| AS07-A043 |
Enhanced Impact of Vegetation on Evapotranspiration in the Northern Drought-prone Belt of China |
Jian ZENG#+
Chengdu University of Information Technology, China |
| AS07-A048 |
Remote Tropical Central Pacific Influence on Driving Sea Surface Temperature Variability in the Northeast Pacific |
Hao-Jhe HONG+, Huang-Hsiung HSU#
Academia Sinica, Taiwan |
| AS07-A049 |
Interdecadal Variation in Winter Precipitation Over Non-monsoonal Eurasian Regions |
Xinhai CHEN#+, Xiaojing JIA
Zhejiang University, China |
| AS07-A052 |
Responses of East Asian Climate to SST Anomalies in the Kuroshio Extension Region During Boreal Autumn |
Yu GENG1+, Hong-Li REN1,2#
1Chinese Academy of Meteorological Sciences, China, 2China University of Geosciences, China |
| AS07-A053 |
Impact of Changes in Ice Microphysical Processes on Predictability of the Korean Integrated Model |
Jeong-Ock LIM#+, Jeong-Hyun PARK, Hyun-Joo CHOI, Seonghoon CHEONG
Numerical Modeling Center/Korea Meteorological Administration, Korea, South |
| AS08 Atmospheric Light Scattering and Remote Sensing |
| Abstract ID |
Abstract Title |
Authors |
| AS08-A001 |
Remote Sensing of Atmospheric Winds, Boundary Layer Heights, and Snow Depth |
Xubin ZENG#+
The University of Arizona, United States |
| AS08-A008 |
Forward and Inverse Models for Satellite Remote Sensors Using Principal Component Analysis |
Xu LIU#+
NASA Langley Research Center, United States |
| AS08-A003 |
Aerosol Microphysical Properties Retrieved from Dual-polarization Lidar Measurements |
Qingqing DONG#+, Zhongwei HUANG, Xintai SHEN, Jianrong BI, Tian ZHOU, Shuang ZHANG
Lanzhou University, China |
| AS08-A004 |
Aerosol Direct Radiative Effects at the ARM SGP Site Based on Raman Lidar Observations |
Qiang FU#+
University of Washington, United States |
| AS08-A007 |
A Study on Changes in Particle Characteristics Depending on Relative Humidity Using LiDAR Data |
Sohee JOO1+, Youngmin NOH1#, Dukhyeon KIM2, Juseon SHIN1, Naghmeh DEHKHODA1, Juhyeon SIM1, Jaewon KIM1, Yuseon LEE1, Gahyeon PARK1, Jihyeon YUN1
1Pukyong National University, Korea, South, 2Hanbat National University, Korea, South |
| AS08-A005 |
Size Distribution of Atmospheric Aerosols Considerably Impacts Radiative Effects Over the Himalayas by Modulating Aerosol Single-scattering Albedo |
Zeren YU#+, Pengfei TIAN, Lei ZHANG, Jiening LIANG
Lanzhou University, China |
| AS08-A006 |
Polarized Adding Method of Discrete Ordinate Approximation for Visible and Near-infrared Radiative Transfer |
Kun WU1#+, Feng ZHANG2, Wenwen LI2
1Nanjing University of Information Science & Technology, China, 2Fudan University, China |
| AS08-A009 |
Partially Melting Droplets Strongly Enhance Lidar Backscatter |
Wenbo SUN1#+, Yongxiang HU2
1Science Systems and Applications, Inc., United States, 2NASA Langley Research Center, United States |
| AS08-A010 |
A Potential Feedback Mechanism of Springtime Arctic Snow/ice Algae, Biological Aerosols and Arctic Clouds |
Yongxiang HU1#+, Patricia LUCKER2, Wenbo SUN2
1NASA Langley Research Center, United States, 2Science Systems and Applications, Inc., United States |
| AS08-A011 |
Advancing Aerosol Remote Sensing Over Ocean Using PACE Multi-angle Polarimetric Measurements |
Meng GAO1#+, Kirk KNOBELSPIESSE2, Bryan FRANZ2, Pengwang ZHAI3, Brian CAIRNS4, Jeremy WERDELL2
1SSAI, NASA GSFC, United States, 2NASA Goddard Space Flight Center, United States, 3University of Maryland, Baltimore County, United States, 4NASA Goddard Institute for Space Studies, United States |
| AS08-A012 |
Real-time LiDAR Ratio Calculation Using Nighttime Camera and Laser |
Juhyeon SIM1+, Dukhyeon KIM2, Juseon SHIN1, Sohee JOO1, Jaewon KIM1, Yuseon LEE1, Gahyeon PARK1, Jihyeon YUN1, Youngmin NOH1#
1Pukyong National University, Korea, South, 2Hanbat National University, Korea, South |
| AS08-A013 |
Geometric Factor Correction in the Horizontal Scanning LIDAR System |
Juseon SHIN1#, Gahyeon PARK1+, Dukhyeon KIM2, Youngmin NOH1
1Pukyong National University, Korea, South, 2Hanbat National University, Korea, South |
| AS08-A016 |
Prediction Algorithms for the Rapid Changes of Visibility According to the Radiation Fog Events |
Jaewon KIM1+, Dukhyeon KIM2#, Youngmin NOH1, Juseon SHIN1, Sohee JOO1, Juhyeon SIM1, Yuseon LEE1
1Pukyong National University, Korea, South, 2Hanbat National University, Korea, South |
| AS08-A014 |
Determined Spatial and Temporal Variability of Mixing Layer Height Using Aerosol Backscatter Data of Ceilometer |
Hyunkyoung KIM1+, Heejung JUNG1, Chang Hoon JUNG2, Junshik UM1#
1Pusan National University, Korea, South, 2Kyungin Women's University, Korea, South |
| AS08-A018 |
Approximating the Backscatter Efficiency Factor of Preferentially Oriented Snow Particles |
Kwo-Sen KUO1,2#+, Ines FENNI3, Robert SCHROM4, William OLSON4, Ian ADAMS4
1University of Maryland-College Park, United States, 2Bayesics, LLC, United States, 3NASA Jet Propulsion Laboratory, United States, 4NASA Goddard Space Flight Center, United States |
| AS09 The Science and Prediction of Heavy Precipitation and Floods |
| Abstract ID |
Abstract Title |
Authors |
| AS09-A005 |
Extreme Rainfall in Northern China in September 2021 Tied to Air–sea Multi-factors |
Jianping LI#+, Yue SUN, Hao WANG, Ruize LI, Xinxin TANG
Ocean University of China, China |
| AS09-A001 |
Merits of Ocean Prediction for Predicting Summer Heavy Rainfall in Japan |
Yuya BABA#+
Japan Agency for Marine-Earth Science and Technology, Japan |
| AS09-A002 |
Real-time Nowcasting of Sudden Heavy Rainfall at Meso-γ-scale Using Neural Network and Dense 3D Observations by Precipitation Radar |
Philippe BARON1#+, Kohei KAWASHIMA2, Hanado HIROSHI1, Seiji KAWAMURA1, Takeshi MAESAKA3, Shinsuke SATOH1, Tomoo USHIO2
1National Institute of Information and Communications Technology, Japan, 2Osaka University, Japan, 3National Research Institute for Earth Science and Disaster Resilience, Japan |
| AS09-A010 |
The New Version of Weather Research and Forecasting (WRF) Double-moment 6-class (WDM6) with the Revised Ice Microphysics |
Sun Young PARK+, Kyo-Sun LIM#
Kyungpook National University, Korea, South |
| AS09-A004 |
Synergistic Effect of El Niño and Negative Phase of North Atlantic Oscillation on Winter Precipitation in the Southeastern United States |
Xinxin TANG1+, Jianping LI1#, Yazhou ZHANG1, Yanjie LI2, Sen ZHAO3,4
1Ocean University of China, China, 2Chinese Academy of Sciences, China, 3University of Hawaii at Manoa, United States, 4Nanjing University of Information Science & Technology, China |
| AS09-A006 |
Differences in Hourly Heavy Rainfall Over the Southeastern Extension of the Tibetan Plateau Under the Topographic Impacts |
Weihua YUAN#+
Institute of Atmospheric Physics, Chinese Academy of Sciences, China |
| AS09-A009 |
Impact of the Prognostic Snow and Graupel Number Concentrations on the Simulated Precipitation |
Juhee KWON+, Sun Young PARK, Kyo-Sun LIM#
Kyungpook National University, Korea, South |
| AS09-A007 |
On the Influences of Urbanization on the Extreme Rainfall Over Zhengzhou on 20 July 2021: A Convection-permitting Ensemble Modeling Study |
Yali LUO1#+, Jiahua ZHANG2, Miao YU3
1Nanjing University of Information Science & Technology, China, 2Chengdu University of Information Technology, China, 3Chinese Academy of Meteorological Sciences, China |
| AS09-A008 |
An Unprecedented Compound Extreme of South-rainstorm and North-heatwave in Eastern China During Early Summer 2022 |
Zhicong YIN#+, Xiaoqing MA, Yijia ZHANG, Tianbao XU, Botao ZHOU, Huijun WANG
Nanjing University of Information Science & Technology, China |
| AS09-A016 |
A Comparison of Precipitation Forecasts with Different Scale-aware Cumulus Parameterizations Over South Korea |
Ji-Young HAN#+
Korea Institute of Atmospheric Prediction Systems, Korea, South |
| AS09-A012 |
Moisture Sources for the Weather Pattern Classified Extreme Precipitation in the First Rainy Season Over South China |
Dongdong PENG#+
Institute of Tropical and Marine Meteorology, ChinaMeteorological Administration, GuangZhou, China |
| AS09-A013 |
A Convection‐permitting Numerical Study of Diurnal Cycles of Pre‐summer Rainfall Over Southern China |
Xi LU#+
Sun Yat-sen University, China |
| AS09-A027 |
The Roles of Low-level Jets in “21·7” Henan Extremely Persistent Heavy Rainfall Event |
Yuhan LUO#+, Yu DU
Sun Yat-sen University, China |
| AS09-A014 |
Characteristics and Origins of the Intraseasonal Precipitation in the Wintertime North Pacific |
Jing HUANG1+, Yang ZHANG2#, Xin WANG3, Xiu-Qun YANG2, Xuejuan REN2
1South China Sea Institute of Oceanology, Chinese Academy of Sciences, China, 2Nanjing University, China, 3Chinese Academy of Sciences, China |
| AS09-A025 |
Changes of Global Spatiotemporally Continuous Precipitation Events Under Past and Future Climate Warming |
Xiaoyu WANG1+, Ming LUO1,2#
1Sun Yat-sen University, China, 2The Chinese University of Hong Kong, Hong Kong SAR |
| AS09-A017 |
Impact of Vertical Movement of Soil Liquid Water on an Extreme Precipitation Event in South China |
Youyong XIE+, Huiling YUAN#
Nanjing University, China |
| AS09-A019 |
Numerical Investigation of the Effects of Boundary Layer Parameterization Schemes on Typhoon Meranti (1614) Landing Process |
Yehong WANG#+, Yuchun ZHAO
Xiamen Meteorological Bureau, China |
| AS09-A018 |
Future Changes in Coastal Warm-sector Flood-producing MCS in Southern China |
Murong ZHANG1#+, Zhiyong MENG2, Yipeng HUANG3
1Xiamen University, China, 2Peking University, China, 3Xiamen Meteorological Bureau, China |
| AS09-A024 |
Long-term Variability of Temperature and Precipitation in Eastern China and the Underlying Mechanisms |
Wen ZHOU#+, Yue ZHANG
Fudan University, China |
| AS09-A020 |
Applying Optical Flow to Nowcasting Heavy Rainfall Over the Maritime Continent |
Joseph SMITH#+
University of Leeds, United Kingdom |
| AS09-A022 |
Development of the Geo-KOMPSAT Image Analysis in Detecting Precursors of Developing Heavy Rain Cloud in Summer Season |
Kim DONG SU1#+, Oh Hee KIM2, Byunghyun SONG2, Hee Jung KANG2
1Korea Meteorological Administration, Korea, South, 2Researcher, Korea, South |
| AS09-A023 |
Short-range Precipitation Forecasts from SINGV with a New Science Configuration |
Boon Chong Peter HENG1#+, Jeff LO2
1Meteorological Service Singapore, Singapore, 2Centre for Climate Research Singapore, Singapore |
| AS09-A026 |
Implementing Double Moment Microphysics Into the Met Office Unified Model for Operational Use |
Paul FIELD1#, Kalli FURTADO1+, Adrian HILL1, Ben SHIPWAY1, Jonathan WILKINSON1, Annette MILTENBERGER2, Hamish GORDON3, Daniel GROSVENOR1, Kwinten VAN WEVERBERG4
1Met Office, United Kingdom, 2Johannes Gutenberg University Mainz, Germany, 3University of Leeds, United Kingdom, 4Ghent University, Belgium |
| AS09-A028 |
An Review of Research on the Record-breaking Precipitation Event in Henan Province of China, July 2021 |
Qinghong ZHANG1#+, Juanzhen SUN2, Rumeng LI1
1Peking University, China, 2National Center for Atmospheric Research, United States |
| AS10 Extreme Events: Observations and Modeling |
| Abstract ID |
Abstract Title |
Authors |
| AS10-A003 |
Impact of Tropical Intraseasonal Oscillation on the 2015 Indian Heatwave |
Tukaram ZORE#+, Kiranmayi LANDU
Indian Institute of Technology Bhubaneswar, India |
| AS10-A041 |
Maintenance Mechanism of Cutoff Lows as Vortex–Vortex Interactions (The 2nd Report) |
Koryu YAMAMOTO1#+, Keita IGA1, Akira YAMAZAKI2
1The University of Tokyo, Japan, 2Japan Agency for Marine-Earth Science and Technology, Japan |
| AS10-A002 |
Arctic and Pacific Ocean Conditions Were Favourable for Cold Extremes Over Eurasia and North America During Winter 2020/21 |
Ruonan ZHANG#+
Fudan University, China |
| AS10-A016 |
Comparison and Application of Gap-filling Algorithm for Extreme Climate Analysis of Vanuatu Observation Data |
Imgook JUNG+, Kyungwon PARK, Jong Ahn CHUN#
APEC Climate Center, Korea, South |
| AS10-A017 |
Development of Long-term Climate Products Using Remote Sensing Data |
Kyungwon PARK#+, Imgook JUNG, Jong Ahn CHUN
APEC Climate Center, Korea, South |
| AS10-A004 |
Moisture Sources of the Record-breaking Heavy Rainfalls Over Tohoku Region in August 2022 |
Ning ZHAO1#+, Pei-Ming WU1, Atsuyoshi MANDA2, Xiaojun GUO3, Bin WANG4
1Japan Agency for Marine-Earth Science and Technology, Japan, 2Mie University, Japan, 3University of Hawaiʻi at Mānoa, United States, 4Jiangsu University of Science and Technology, China |
| AS10-A005 |
Organized Convective Systems Yielding Tornadoes Far from Typhoon |
Koji SASSA1#+, Sora ISHIDO2
1Kochi University, Japan, 2Japan Meterological Agency, Japan |
| AS10-A006 |
Recurring Latitudinal Shifts of the 2020 Extreme Meiyu Rainfall Around Yangtse: Potential Role of MJO |
Yuntao WEI1#+, Hong-Li REN2,3, Yuwen WANG1
1Fudan University, China, 2Chinese Academy of Meteorological Sciences, China, 3China University of Geosciences, China |
| AS10-A007 |
Active Influence of the Boundary Current Synchronization on the Northern Annular Mode |
Tsubasa KOHYAMA1#+, Yoko YAMAGAMI2, Shoichiro KIDO2, Fumiaki OGAWA3, Hiroaki MIURA4, Hiroaki TATEBE2
1Ochanomizu University, Japan, 2Japan Agency for Marine-Earth Science and Technology, Japan, 3Hokkaido University, Japan, 4The University of Tokyo, Japan |
| AS10-A008 |
Fitting Parametric Tropical Cyclone-induced Rainfall Model for Tropical Cyclones Landfalling onto the Northern Vietnam Coast |
Warinthorn ANGKANASIRIKUL1#+, Wei JIAN2, Edmond LO1
1Nanyang Technological University, Singapore, 2Institute of Catastrophe Risk Management, Nanyang Technological University, Singapore |
| AS10-A009 |
Circum-western Canada Pattern in Boreal Summer Caused by the Boundary Current Synchronization |
Akane HARA1#+, Tsubasa KOHYAMA1, Yoko YAMAGAMI2, Hiroaki TATEBE2
1Ochanomizu University, Japan, 2Japan Agency for Marine-Earth Science and Technology, Japan |
| AS10-A042 |
Statistical Analysis on Direction of Tornado Motions and its Relationship with the Large-scale Wind Field |
Yuri MITA#+, Tsubasa KOHYAMA
Ochanomizu University, Japan |
| AS10-A010 |
Winter Warming and its Trend in India |
Anil KUMAR#+, Netrananda SAHU
University of Delhi, India |
| AS10-A011 |
3D DBSCAN Detection and Parameter Sensitivity of the 2022 Yangtze River Summertime Heatwave and Drought |
Zhenchen LIU#+, Wen ZHOU
Fudan University, China |
| AS10-A012 |
Attribution of the Unprecedented 2021 October Heatwave in South Korea |
Yeon-Hee KIM1#+, Seung-Ki MIN1, Dong-Hyun CHA2, Young-Hwa BYUN3, Fraser LOTT 4, Peter STOTT4
1Pohang University of Science and Technology, Korea, South, 2Ulsan National Institute of Science and Technology, Korea, South, 3National Institute of Meteorological Sciences, Korea, South, 4Met Office Hadley Centre, United Kingdom |
| AS10-A013 |
The Spatiotemporal Distribution of Extreme Precipitation and Related Near Surface Atmospheric Conditions During Summer of 2014-2019 Over the Tibetan Plateau Derived from GPM Observations and Reanalysis Datasets |
Rui WANG#+, Wenshou TIAN
Lanzhou University, China |
| AS10-A019 |
The Latitudinal Position of the Westerly Jet Stream Modulated by the Tropics-Extratropics Boundary and Sea Surface Temperature Fronts |
Mari MUTO#+, Tsubasa KOHYAMA
Ochanomizu University, Japan |
| AS10-A020 |
Future Changes in Synoptic-scale Conditions Inducing Wide-spread Heavy Precipitation in Japan |
Shiori SUGIMOTO1#+, Rui ITO1,2, Chieko SUZUKI1, Sachiho ADACHI3
1Japan Agency for Marine-Earth Science and Technology, Japan, 2Meteorological Research Institute, Japan, 3RIKEN Center for Computational Science, Japan |
| AS10-A021 |
Climate Change Impact on Precipitation and Temperature Extremes Over Japan |
Sridhara NAYAK1#+, Tetsuya TAKEMI2
1Japan Meteorological Corporation, Japan, 2Kyoto University, Japan |
| AS10-A028 |
The Indonesia Numerical Weather Prediction (InaNWP): Development, Progress, and Preliminary Results |
Jaka PASKI#+, Erwin MAKMUR, Urip HARYOKO, Danang Eko NURYANTO, Dwikorita KARNAWATI, Wido HANGGORO, Supriyanto ROHADI, Fatkhuroyan FATKHUROYAN, Nelly Florida RIAMA, Donaldi PERMANA
Indonesian Agency for Meteorology, Climatology and Geophysics, Indonesia |
| AS10-A023 |
Development of Composite Hydrological Drought Index for Northern Thailand Watershed |
Duangnapha LAPYAI1#+, Chakrit CHOTAMONSAK1, Somporn CHANTARA1, Atsamon LIMSAKUL2
1Chiang Mai University, Thailand, 2Environmental Research and Training Center, Thailand |
| AS10-A024 |
The Effect of Initial and Boundary Conditions on Heavy Rainfall Forecast Over the Yellow Sea: Verification Using Dropsonde Measurements |
Jiwon HWANG+, Dong-Hyun CHA#
Ulsan National Institute of Science and Technology, Korea, South |
| AS10-A026 |
Footprints of Atlantic Multidecadal Oscillation in the Low-frequency Variation of Extreme High Temperature in the Northern Hemisphere |
Miaoni GAO#+
Nanjing University of Information Science & Technology, China |
| AS10-A027 |
Longer- and Slower-moving Contiguous Heatwaves Linked to El Niño |
Sijia WU+, Ming LUO#
Sun Yat-sen University, China |
| AS10-A029 |
Recent Changes and Related Factors of Tropical Night in the South Korea Metropolitan Area |
TaeHun KANG#+, Donghyuck YOON, Junseo PARK, Dong-Hyun CHA
Ulsan National Institute of Science and Technology, Korea, South |
| AS10-A032 |
Future Changes in the Joint Probability of Compound Hot and Dry Extremes in China |
Ziwei ZHU1+, Liying QIU2, Eun-Soon IM2#
1The Hong Kong University of Science and Technology, Hong Kong SAR, Hong Kong SAR, 2The Hong Kong University of Science and Technology, Hong Kong SAR |
| AS10-A036 |
The Evaluation of Skill of Global Extended Range Ensemble Predictions for Predicting the Genesis of Tropical Cyclone Over Bay of Bengal |
Rajasekhar MEKA1#+, Yesubabu VISWANADHAPALLI2
1Indian Space Research Organisation, India, 2National Atmospheric Research Laboratory, India |
| AS10-A034 |
Examining Taiwan's Extreme Rainfall Changes from an Event Perspective |
Pin-Yu CHAO+, Cheng-Ta CHEN#
National Taiwan Normal University, Taiwan |
| AS10-A037 |
Intense Western Disturbance Associated Extreme Precipitation Events Over Western Himalayas as Simulated by WRF Model |
Nischal SHARMA+, Raju ATTADA#
Indian Institute of Science Education and Research Mohali, India |
| AS11 Atmospheric Chemistry in Highly Polluted Environments: Emissions, Fate, and Impacts |
| Abstract ID |
Abstract Title |
Authors |
| AS11-A002 |
Spatiotemporal Variation and Inter-transport of Atmospheric Speciated Mercury Between Harbor and Urban Areas: A Case Study of Kaohsiung, Taiwan |
I-Chieh TU#+, Chung-Shin YUAN
National Sun Yat-sen University, Taiwan |
| AS11-A003 |
Diurnal Variation, Chemical Fingerprint, and Source Resolution of Marine PM2.5 at the Dongsha Islands Based on Three-Year Field Measurement Data |
Zi-You HUANG#+, Chung-Shin YUAN
National Sun Yat-sen University, Taiwan |
| AS11-A014 |
Fine Mode Atmospheric Arsenic Concentrations Over a Semi-urban Atmosphere in Eastern Indo Gangetic Plain: Very High Exceedance Over Indian Standard |
Sauryadeep MUKHERJEE1#+, Adnan QADRI2, Tarun GUPTA2, Abhijit CHATTERJEE1
1Bose Institute, India, 2Indian Institute of Technology Kanpur, India |
| AS11-A004 |
Thermal Effects on Dispersion of Secondary Inorganic Aerosols in an Urban Street Canyon |
Minjoong KIM1#+, Seungyeon LEE1, Seon-Young PARK1, Jae-Jin KIM2
1Myongji University, Korea, South, 2Pukyong National University, Korea, South |
| AS11-A005 |
Impacts of Chlorine Chemistry and Anthropogenic Emissions on Secondary Pollutants in the Yangtze River Delta Region |
Jingyi LI1#+, Peng WANG2, Qi YING3, Song GUO4, Keding LU4, Xionghui QIU5, Jianlin HU1
1Nanjing University of Information Science & Technology, China, 2The Hong Kong Polytechnic University, China, 3Texas A&M University, United States, 4Peking University, China, 5North China Electric Power University, China |
| AS11-A063 |
Photo-oxidation Pathway as a Potential CS2 Sink in the Atmosphere |
Yuanzhe LI1#+, Kazuki KAMEZAKI2, Sebastian DANIELACHE1
1Sophia University, Japan, 2National Institute of Advanced Industrial Science and Technology, Japan |
| AS11-A007 |
Global and East Asian Tropospheric Ozone Trends in the Recent Two Decades |
Xiao LU#+, Haolin WANG
Sun Yat-sen University, China |
| AS11-A010 |
Aqueous Aging of Secondary Organic Aerosol Coating Onto Black Carbon at an Urban Site in Southern China |
Liming CAO#+, Xiaohe LI
Peking University Shenzhen Graduate School, China |
| AS11-A009 |
Fast Spreading of Surface Ozone in Both Temporal and Spatial Scale in Pearl River Delta |
Tianhui CAO+, Haichao WANG#, Shaojia FAN
Sun Yat-sen University, China |
| AS11-A013 |
Quantification and Characterization of Fine Plastic Particles as Considerable Components in Atmospheric Fine Particle |
Yunqian CHEN1#+, Siyuan JING2, Yanting WANG3, Jianmin CHEN1
1Fudan University, China, 2Westlake University, China, 3Zhejiang University, China |
| AS11-A022 |
Quantifying the Inter-city Transport of PM2.5 Using the Michaelis-Menten Equation in the Yangtze River Delta, China |
Kangjia GONG#+, Jianlin HU
Nanjing University of Information Science & Technology, China |
| AS11-A012 |
Age-resolved Source and Region Contributions to Fine Particulate Matter During an Extreme Haze Episode in China |
Xiaodong XIE#+, Jianlin HU
Nanjing University of Information Science & Technology, China |
| AS11-A015 |
Unaccounted Anthropogenic and Natural Emissions of Nitrogen Oxides in China Over 2012–2022 Revealed from OMI and TROPOMI |
Jintai LIN1#+, Hao KONG1, Yuhang ZHANG1, Mengyao LIU2
1Peking University, China, 2Royal Netherlands Meteorological Institute, Netherlands |
| AS11-A016 |
Increases of Atmospheric Oxidation Capacity and Shifts of Formation Regimes Led to Ozone Increase in China from 2016 to 2019 |
Shengqiang ZHU1#+, Jinlong MA1, Peng WANG2, Hongliang ZHANG1
1Fudan University, China, 2The Hong Kong Polytechnic University, China |
| AS11-A017 |
Simulation of Global Aerosol Particle Number Concentration Considering the Volatility Distribution of Organic Aerosols |
Xueshun CHEN#+
Institute of Atmospheric Physics, Chinese Academy of Sciences, China |
| AS11-A020 |
Long-term Variations of Air Quality in India: A Study Using WRF-CMAQ Models |
Mengyuan ZHANG1#+, Sri KOTA2, Peng WANG1, Hongliang ZHANG1
1Fudan University, China, 2Indian Institute of Technology Delhi, India |
| AS11-A021 |
Absorption Enhancement of Black Carbon Aerosols Constrained by Mixing-state Heterogeneity |
Jinghao ZHAI1#+, Xin YANG1, Ling LI2, Bin BAI3, Pengfei LIU3, Yuanlong HUANG4, Tzung-May FU1, Lei ZHU1, Zhenzhong ZENG1, Shu TAO1, Xiaohui LU2, Xingnan YE2, Xiaofei WANG2, Lin WANG2, Jianmin CHEN2, Huizhong SHEN1, Jianhuai YE1, Chen WANG1
1Southern University of Science and Technology, China, 2Fudan University, China, 3Georgia Institute of Technology, United States, 4California Institute of Technology, United States |
| AS11-A019 |
Molecular Characterization of Atmospheric Particulate Organosulfates from the Port Environment Using Ultrahigh Resolution Mass Spectrometry: Identification of Ship Emissions |
Lijuan QI1#+, Huan LIU2
1Qinghai University, China, 2Tsinghua University, China |
| AS11-A023 |
Optimization of Protocol for Detection of Dicarboxylic Acids (DCAs) in Ambient Aerosol and its Analysis in Northeast Region of India Using GC-MS |
Pratibha VISHWAKARMA+, Poonam NIGAM, Tarun GUPTA#
Indian Institute of Technology Kanpur, India |
| AS11-A024 |
Biogenic Volatile Organic Compounds Enhance Ozone Production and Complicate Control Efforts: Insights from Long-term Observations in Hong Kong |
Yingnan ZHANG1+, Tao WANG2#, Likun XUE3
1The Hong Kong Polytechnic University, China, 2The Hong Kong Polytechnic University, Hong Kong SAR, 3Shandong University, China |
| AS11-A029 |
Diagnosing Drivers of Modeling Bias in Fine Particulate Matter Simulations: An Efficient Machine Learning Based Method |
Shuai WANG+, Peng WANG, Hongliang ZHANG#
Fudan University, China |
| AS11-A032 |
Effects of Chemical Mechanism and Meteorological Factors on the Concentration of Atmospheric Pollutants in the Megacity Beijing, China |
Li YUJIE#+
Beijing Normal University, China |
| AS11-A064 |
Evaluation of Key Factors Influencing Urban Ozone Pollution in the Pearl River Delta and its Atmospheric Implications |
Xiaoyu LIN1#+, Ling-Yan HE2, Shiyong XIA2, Yao LUO2, Hengxiao HAN2
1Peking University, China, 2Peking University Shenzhen Graduate School, China |
| AS11-A025 |
Ambient Measurements of Heterogeneous Ozone Oxidation Rates of Oleic, Elaidic, and Linoleic Acid Using a Relative Rate Constant Approach in an Urban Environment |
Qiongqiong WANG1#+, Jian Zhen YU2
1China University of Geosciences, China, 2The Hong Kong University of Science and Technology, Hong Kong SAR |
| AS11-A027 |
On the Impact of Vertical Diffusion on Mesoscale Chemistry Transport Modeling |
Lei JIANG#+
Nanjing University of Information Science & Technology, China |
| AS11-A026 |
Implication for Polycyclic Aromatic Hydrocarbons: From the Present-day to the Future |
Sijia LOU1#+, Manish SHRIVASTAVA2
1Nanjing University, China, 2Pacific Northwest National Laboratory, United States |
| AS11-A028 |
Seasonal and Spatial Heterogeneities of PM, Chemical Constituents and Sources Contribution at Vijayawada City, Andhra Pradesh India |
Manuj SHARMA1#+, Suresh JAIN2,1
1Indian Institute of Technology Tirupati, India, 2Indian Institute of Technology Delhi, India |
| AS11-A033 |
Underestimation of Summertime Urban Ammonia Emissions in Beijing, China : lmplications for Air Quality |
Jiayu XU#+, Lin ZHANG, Mengran LU, Yixin GUO
Peking University, China |
| AS11-A035 |
Identification of Influencing Parameters from Agriculture Sector for Developing Region-specific Emission Inventory |
Thirunagari BABY KEERTHI1#+, Sri KOTA1, Rajesh KUMAR2
1Indian Institute of Technology Delhi, India, 2University Corporation for Atmospheric Research, United States |
| AS11-A038 |
Evaluation of Widely Utilized Emission Inventories in India Using the WRF-Chem Model and MODIS AOD Data |
Diljit NAYAK#+, Gazala Habib HABIB, Sri KOTA
Indian Institute of Technology Delhi, India |
| AS11-A040 |
Influence of Land Use and Meteorology on Concentrations of Short Lived Climate Pollutants Over India |
Diljit NAYAK#+, Gazala Habib HABIB, Sri KOTA
Indian Institute of Technology Delhi, India |
| AS11-A039 |
An Approach Towards Preparation of a National Emission Inventory for the Food Service Industry in India: A Case Study for Megacity Delhi |
Medhavi GUPTA#+, Sri KOTA
Indian Institute of Technology Delhi, India |
| AS11-A047 |
Seasonal Variation and Source Identification of Ambient PM2.5 and Associated Water-soluble Inorganic Ions (WSII): A Diurnal Field and Comparative Study of Two Indian Cities |
Yash JAIN#+, Sri KOTA, Vivek KUMAR
Indian Institute of Technology Delhi, India |
| AS11-A048 |
Seasonal Variation and Health Risk Assessment of PM2.5 Bound Heavy Metals: A Field and Comparative Study of Two Indian Cities |
Yash JAIN#+, Sri KOTA, Vivek KUMAR
Indian Institute of Technology Delhi, India |
| AS11-A041 |
Atmospheric Chlorine Chemistry in Urban Environment |
Yee Jun THAM1#+, Shichun ZOU1, Lei YAO2
1Sun Yat-sen University, China, 2Fudan University, China |
| AS11-A044 |
Estimation of Tail Pipe and Non-tailpipe Emissions for Seven Non-attainment Cities in the Indian State of Punjab from the Ground-based Activity Data and their Comparison with the Existing Global Emission Inventories EDGAR and ECLIPSE |
Arpit KATIYAR#+, Sri KOTA
Indian Institute of Technology Delhi, India |
| AS11-A045 |
Factors Contributing to Changes in PM2.5 Concentration in South Korea During the Recent Winter Season |
Jaein JEONG1#+, Rokjin J. PARK1, Chang-Keun SONG2, Sang-Wook YEH3, Jung-Hun WOO4
1Seoul National University, Korea, South, 2Ulsan National Institute of Science and Technology, Korea, South, 3Hanyang University, Korea, South, 4Konkuk University, Korea, South |
| AS11-A049 |
Atmospheric Assimilation Capacity of Non-attainment City in Southern India |
Manuj SHARMA1+, Suresh JAIN2,1#
1Indian Institute of Technology Tirupati, India, 2Indian Institute of Technology Delhi, India |
| AS11-A050 |
Assessment of the Impact of Meteorological and Emission Variations on Winter PM2.5 Over the North China Plain in 2018-2020 |
Huiyun DU1#+, Xueshun CHEN2, Jie LI1
1Chinese Academy of Sciences, China, 2Institute of Atmospheric Physics, Chinese Academy of Sciences, China |
| AS11-A051 |
Quantifying Nonlinear Chemical Effects of Emission Reductions on PM2.5 Pollution in Beijing Using the Adjoint Method |
Ni LU#+, Lin ZHANG, Xiaolin WANG
Peking University, China |
| AS11-A052 |
Probabilistic Assessment of Spatiotemporal Air Quality in Taiwan Using Multivariate Indicator Kriging |
Cheng-Shin JANG#+
Kainan University, Taiwan |
| AS11-A053 |
The Optical Properties and CCN Activities of Black Carbon by Mixed Atmospheric Secondary Pollutants Coating |
Cheng YUAN#+, Yan MA
Nanjing University of Information Science & Technology, China |
| AS11-A062 |
Atmospheric Dry Deposition of N-alkanes at an Urban Site in Indo-Gangetic Plain |
Shweta SINGH+, Monika J. KULSHRESTHA #
CSIR-National Physical Laboratory, India |
| AS11-A054 |
Impact of Improved Representation of VOC Emissions and Photochemistry on Regional Ozone Production During Korus-AQ |
Katherine TRAVIS1,2#+, James CRAWFORD2, Benjamin NAULT3
1National Center for Atmospheric Research, United States, 2NASA Langley Research Center, United States, 3Aerodyne, Inc., United States |
| AS11-A055 |
Production and Loss of Atmospheric Formaldehyde at a Suburban Site of Shanghai in Summertime |
Yizhen WU1, Juntao HUO2, Gan YANG1, Yuwei WANG1, Lihong WANG1, Shijian WU2, Lei YAO1, Qingyan FU2, Lin WANG1#+
1Fudan University, China, 2Shanghai Environmental Monitoring Center, China |
| AS11-A056 |
The Impacts of Marine-emitted Halogens on Atmospheric Oxidation in Guangdong-Hongkong-Macau Great Bay Area (GBA) of China During Summer |
Ying LI1,2#+, Shidong FAN1
1Southern University of Science and Technology, China, 2Southern Marine Science and Engineering Guangdong Laboratory, China |
| AS11-A057 |
Estimations of Indirect and Direct Anthropogenic Dust Emission at the Global Scale |
Junyan CHEN#+, Siyu CHEN, Jianping HUANG
Lanzhou University, China |
| AS11-A061 |
Preparation of Gridded Emission Inventory for Particulate Matter Using Ground-based Activity Data and its comparison with the Other Emission Inventories: A Study of Seven Non-attainment Cities of an Urban Airshed, Punjab India |
Arpit KATIYAR#+
Indian Institute of Technology Delhi, India |
| AS11-A060 |
Observations of NOx, O3, CO, VOCs, and PM in an Urban Region in Taiwan During the Chinese New Year |
Jonalyn MADRIAGA1,2#+, Charles C.-K. CHOU1, Tse-Tsung HO1
1Academia Sinica, Taiwan, 2National Central University, Taiwan |
| AS11-A059 |
The Nord Stream Pipeline Gas Leaks Released Approximately 220,000 Tonnes of Methane Into the Atmosphere |
Mengwei JIA#+, Fei JIANG, Fei LI
Nanjing University, China |
| AS12 Passive and Active Sensing of the Chemistry and Dynamics of the Middle and Upper Atmosphere |
| Abstract ID |
Abstract Title |
Authors |
| AS12-A001 |
Abrupt Change in the Lower Thermospheric Mean Meridional Circulation During Sudden Stratospheric Warmings |
Yvan ORSOLINI1#+, Varavut LIMPASUVAN2, Jiarong ZHANG2
1Norwegian Institute for Air Research, Norway, 2Coastal Carolina University, United States |
| AS12-A002 |
Eastward Propagating Planetary Waves Observed Using the SuperDARN Meteor Radar Network |
Patrick ESPY1,2#+, Tina MIRZAAMIN1, Yvan ORSOLINI3, Christian RHODES4
1Norwegian University of Science and Technology, Norway, 2University of Bergen, Norway, 3Norwegian Institute for Air Research, Norway, 4Naval Research Laboratory, Space Science Division, United States |
| AS12-A004 |
Dual VHF Radar Measurements of Aspect Sensitivity, Winds, and Momentum Flux in the Troposphere and Lower Stratosphere |
Iain REID1,2#+, Ruediger RUESTER3, Peter CZECHOWSKY3
1ATRAD Pty. Ltd., Australia, 2University of Adelaide, Australia, 3Max Planck Institute for Solar System Research, Germany |
| AS12-A005 |
A New Dual-frequency Atmospheric Radar System and its First Results |
Qingchen XU1#+, Iain REID2,3
1National Space Science Center of the Chinese Academy of Sciences, China, 2ATRAD Pty. Ltd., Australia, 3University of Adelaide, Australia |
| AS12-A006 |
Long‐term Trends of the Meteor Altitude Distribution, Mesospheric Density and Gravity Wave Momentum Flux Observed by the High-latitude Meteor Radars |
Wen YI1+, Iain REID2,3, Xianghui XUE1#, Jie ZENG1, Damian MURPHY4, Masaki TSUTSUMI5, Njål GULBRANDSEN6, Xiankang DOU1
1University of Science and Technology of China, China, 2ATRAD Pty. Ltd., Australia, 3University of Adelaide, Australia, 4Australian Antarctic Division, Australia, 5National Institute of Polar Research, Japan, 6UiT The Arctic University of Norway, Norway |
| AS12-A008 |
Particle Precipitation Effects on the Global Secondary Ozone Distribution |
Lise E. MURBERG1, Tiril LØVSET2, Yvan ORSOLINI1, Jia JIA2,3#+, Patrick ESPY2,4, Cornelius Csar Jude SALINAS5,6, Jae LEE5, Dong WU5, Jiarong ZHANG7
1Norwegian Institute for Air Research, Norway, 2Norwegian University of Science and Technology, Norway, 3Birkeland Centre for Space Science, Norway, 4University of Bergen, Norway, 5NASA Goddard Space Flight Center, United States, 6University of Maryland, Baltimore County, United States, 7Coastal Carolina University, United States |
| AS12-A009 |
Energetic Particle Precipitation Signal Found in the Bromine Nitrate Observation |
Jia JIA1,2#+, Monika SZELAG3, Michael HÖPFNER4, Pekka VERRONEN3, Patrick ESPY1,5
1Norwegian University of Science and Technology, Norway, 2Birkeland Centre for Space Science, Norway, 3Finnish Meteorological Institute, Finland, 4Karlsruhe Institute of Technology, Germany, 5University of Bergen, Norway |
| AS12-A010 |
The “Keystone" Mission Concept for an Upper Atmosphere Explorer |
Daniel GERBER1,2#+, John PLANE3, Franz-Josef LUEBKEN4, Patrick ESPY5,6, Christian VON SAVIGNY7, Dan MARSH3, David JACKSON8, Donal MURTAGH9, Ladislav REZAC10, Brian ELLISON1,2, Alexander VALAVANIS3, Neil BOWLES11
1UK Research and Innovation, United Kingdom, 2The Science and Technology Facilities Council-RAL Space, United Kingdom, 3University of Leeds, United Kingdom, 4Leibniz Institute of Atmospheric Physics, Germany, 5Norwegian University of Science and Technology, Norway, 6University of Bergen, Norway, 7University of Greifswald, Germany, 8Met Office, United Kingdom, 9Chalmers University of Technology, Sweden, 10Max Planck Institute for Solar System Research, Germany, 11University of Oxford, United Kingdom |
| AS12-A013 |
Dynamics of Thermospheric Nitric Oxide During Geomagnetic Storms and Solar Flares |
Yongliang ZHANG#+, Larry PAXTON, Robert SCHAEFER
Johns Hopkins University Applied Physics Laboratory, United States |
| AS12-A016 |
Interhemispheric Coupling Study by Observations and Modelling (ICSOM) |
Kaoru SATO1#+, Yoshihiro TOMIKAWA2,3, Masashi KOHMA1, Ryosuke YASUI4, Dai KOSHIN1, Haruka OKUI1, Shingo WATANABE5, Kazuyuki MIYAZAKI6, Masaki TSUTSUMI2, Damian MURPHY7, Chris MEEK8, Yufang TIAN9,10, Manfred ERN11, Gerd BAUMGARTEN12, Jorge L. CHAU12, Xinzhao CHU13, Richard COLLINS14, Patrick ESPY15,16, Hiroyuki HASHIGUCHI17, Andrew KAVANAGH18, Ralph LATTECK12, Franz-Josef LUEBKEN19, Marco MILLA20, Satonori NOZAWA21, Yasunobu OGAWA2, Kazuo SHIOKAWA21, M Joan ALEXANDER22, Takuji NAKAMURA2, William WARD23
1The University of Tokyo, Japan, 2National Institute of Polar Research, Japan, 3Graduate University for Advanced Studies, Japan, 4Japan Meteorological Agency, Japan, 5Japan Agency for Marine-Earth Science and Technology, Japan, 6California Institute of Technology, United States, 7Australian Antarctic Division, Australia, 8University of Saskatchewan, Canada, 9Chinese Academy of Sciences, China, 10University of Chinese Academy of Sciences, China, 11Forschungszentrum Jülich, Germany, 12University of Rostock, Germany, 13University of Colorado at Boulder, United States, 14University of Alaska, United States, 15Norwegian University of Science and Technology, Norway, 16University of Bergen, Norway, 17Kyoto University, Japan, 18British Antarctic Survey, United Kingdom, 19Leibniz Institute of Atmospheric Physics, Germany, 20Instituto Geofísico del Perú, Peru, 21Nagoya University, Japan, 22NorthWest Research Associates, United States, 23University of New Brunswick, Canada |
| AS13 Polar Atmospheric Processes and Their Interactions with the Surface |
| Abstract ID |
Abstract Title |
Authors |
| AS13-A010 |
Seasonal and Interannual Variations of Poleward Moisture Transport by Atmospheric Rivers in the Southern Hemisphere |
Kyu-Myong KIM1#+, Alexa HENNY1,2
1NASA Goddard Space Flight Center, United States, 2NASA Postdoctoral Program, United States |
| AS13-A004 |
Antarctic Blowing Snow Diagnosis with MERRA-2 Reanalysis Using a Machine Learning Model |
Yuekui YANG#+
NASA Goddard Space Flight Center, United States |
| AS13-A001 |
Polar Climate Change and its Global Impact |
Seong-Joong KIM1,2#+, Joo-Hong KIM1, Sang-Yoon JUN1, Sang-Jong PARK1, Eui-Seok CHUNG1, Yonghan CHOI1, Hye Sun CHOI1
1Korea Polar Research Institute, Korea, South, 2University of Science and Technology, Korea, South |
| AS13-A002 |
The Arctic-siberian Plain Warming Causes the East Asian Heat Waves |
Jeong-Hun KIM1,2+, Seong-Joong KIM2,3, Joo-Hong KIM2, Michiya HAYASHI4, Maeng-Ki KIM1#
1Kongju National University, Korea, South, 2Korea Polar Research Institute, Korea, South, 3University of Science and Technology, Korea, South, 4National Institute for Environmental Studies, Japan |
| AS13-A003 |
Historical Fidelity and Future Change of Amundsen Sea Low Under 1.5°C-4°C Global Warming in CMIP6 |
Miaoni GAO#+
Nanjing University of Information Science & Technology, China |
| AS13-A005 |
Two-way Interactions Between Storm Tracks and Sea Ice in the Southern Hemisphere |
Xihui MAO#+, Li ZHANG
Ocean University of China, China |
| AS13-A006 |
Effects of Large-scale Changes in Environmental Factors on the Genesis of Arctic Super Cyclones |
Yujun LIU+, Yijun HE#
Nanjing University of Information Science & Technology, China |
| AS13-A007 |
Asymmetric Arctic and Antarctic Warmings and Their Inter-model Spread in CMIP6 |
Yihan ZHANG#+
Sun Yat-sen University, China |
| AS13-A008 |
Warming in the Arctic Due to Ocean Dynamics from Northern Extratropical Radiative Cooling |
Ruomei RUAN1+, Sarah KANG2#, Lei ZHOU1, Xiao-Tong ZHENG3, Hai WANG3, Fukai LIU3
1Shanghai Jiao Tong University, China, 2Ulsan National Institute of Science and Technology, Korea, South, 3Ocean University of China, China |
| AS13-A009 |
Wildfire Activities in Northeast Siberia: Implications on Arctic Climate |
Yeonsoo CHO1#+, Sang-Woo KIM1, Baek Min KIM2, Jinho YOON3, Jee-Hoon JEONG4
1Seoul National University, Korea, South, 2Pukyong National University, Korea, South, 3Gwangju Institute of Science and Technology, Korea, South, 4Chonnam National University, Korea, South |
| AS13-A012 |
Observed Contribution of Barents-Kara Sea Ice Loss to Warm Arctic-cold Eurasia Anomalies by Submonthly Processes in Winter |
Li YANQIN1+, Li ZHANG1, Bolan GAN1#, Hong WANG1, Xichen LI2, Lixin WU1
1Ocean University of China, China, 2Chinese Academy of Sciences, China |
| AS13-A013 |
Changes in Tropics-SAM Relationship and its Impacts on the Antarctic Sea Ice Long-term Variability |
Jihae KIM, Myong-In LEE#+, Joonlee LEE
Ulsan National Institute of Science and Technology, Korea, South |
| AS13-A018 |
Investigate the Feedback Mechanisms of Arctic Clouds and Radiation on Sea Ice Changes |
Xiquan DONG#+, Baike XI, Yiyi HUANG
University of Arizona, United States |
| AS13-A011 |
Cause of the Extreme Warming Event on February 9, 2020, in Seymour Island, Antarctic Peninsula |
Hyo-Jun BAE1+, Seong-Joong KIM2,3#, Baek Min KIM1, Ha-Taek KWON4
1Pukyong National University, Korea, South, 2Korea Polar Research Institute, Korea, South, 3University of Science and Technology, Korea, South, 4Seoul National University, Korea, South |
| AS13-A016 |
Jet Response to Arctic Warming in Idealized GCM |
Gun-Hwan YANG+, Baek-Min KIM#, Woosok MOON, Hayeon NOH
Pukyong National University, Korea, South |
| AS13-A014 |
Teleconnection of the El Niño-southern Oscillation Impacts on the Antarctic Sea Ice Under the Near Future Condition |
Jihae KIM1+, Daehyun KANG2, Myong-In LEE1#
1Ulsan National Institute of Science and Technology, Korea, South, 2Korea Institute of Science and Technology, Korea, South |
| AS14 Subseasonal to Seasonal Forecasts and Applications |
| Abstract ID |
Abstract Title |
Authors |
| AS14-A006 |
Improved MJO Prediction Using a Multi-member Subseasonal to Seasonal Forecast System of NUIST (NUIST CFS 1.1) |
Jiye WU1,2#+, Yue LI3, Jing-jia LUO1, Xianan JIANG4, Takeshi DOI2, Toshio YAMAGATA2
1Nanjing University of Information Science & Technology, China, 2Japan Agency for Marine-Earth Science and Technology, Japan, 3New South Wales Government, Australia, 4University of California, Los Angeles, United States |
| AS14-A002 |
Post-correcting of Multi-model Ensemble Sub-seasonal Forecast of Precipitation Based on Deep Learning |
Uran CHUNG#+, Jinyoung RHEE, Soo-Jin SOHN
APEC Climate Center, Korea, South |
| AS14-A003 |
Forecast Skill of the Large MJO Case in March 2015 |
Tetsuo NAKAZAWA1#+, Mio MATSUEDA2
1The University of Tokyo, Japan, 2University of Tsukuba, Japan |
| AS14-A004 |
A Novel Application of the Initial Stratospheric Polar Vortex State to the East Asian Spring Rainfall Prediction from Seasonal Forecast Models |
Jian RAO1#+, Chaim GARFINKEL2, Tongwen WU3, Jing-Jia LUO1
1Nanjing University of Information Science & Technology, China, 2Hebrew University of Jerusalem, Israel, 3China Meteorological Administration, China |
| AS14-A005 |
Subseasonal Forecasts of Precipitation Over Maritime Continent in Boreal Summer and the Sources of Predictability |
Yang LYU#+, Xiefei ZHI, Yan JI
Nanjing University of Information Science & Technology, China |
| AS14-A008 |
Predictability Limit of Monsoon Intraseasonal Precipitation and its Prediction in S2S Models: An Implication of Central Indian Ocean Mode |
Jianhuang QIN1#+, Lei ZHOU2, Baosheng LI3
1Hohai University, China, 2Shanghai Jiao Tong University, China, 3Second Insititute of Oceanography, China |
| AS14-A009 |
Forecast of Subseasonal Indian Monsoon Precipitation Using Central Indian Ocean Mode and Machine Learning |
Lei ZHOU1#+, Yanwei YU2, Bingqi YAN2, Jianhuang QIN3, Wei TAN4, Youmin TANG5,6, Xiaofeng LI7, Xiaojing LI8, Junyu DONG2, Raghu MURTUGUDDE9, Dake CHEN5
1Shanghai Jiao Tong University, China, 2Ocean University of China, China, 3Hohai University, China, 4Shandong University of Science and Technology, China, 5State Oceanic Administration, China, 6University of Northern British, Canada, 7Chinese Academy of Sciences, China, 8Second Institute of Oceanography, China, 9University of Maryland, United States |
| AS14-A015 |
The Role of Sea Surface Temperature Anomalies in Latent Heat Transport in the Northern Hemisphere |
Kyungmin KWAK1+, Hajoon SONG1#, Myung-Seo KOO2, Eunjeong LEE2, JunSeong PARK2
1Yonsei University, Korea, South, 2Korea Institute of Atmospheric Prediction Systems, Korea, South |
| AS14-A011 |
The Impact of Intraseasonal Oscillation and Equatorial Waves on Rainfall Extremes in Indonesia |
Donaldi PERMANA#+, Jaka PASKI, Danang Eko NURYANTO, Nurdeka HIDAYANTO, Erwin MAKMUR, Supari SUPARI, Supriyanto ROHADI, Dwikorita KARNAWATI
Indonesian Agency for Meteorology, Climatology and Geophysics, Indonesia |
| AS14-A012 |
Key Regions in the Modulation of Seasonal GMST Variability by Analyzing the Two Hottest Years: 2016 vs. 2020 |
Kexin LI1+, Fei ZHENG2#, Deyang LUO2, Cheng SUN3, Jiang ZHU2
1Institute of Atmospheric Physics, Chinese Academy of Sciences, China, 2Chinese Academy of Sciences, China, 3Beijing Normal University, China |
| AS14-A013 |
PISSARO: A Collaborative and User-oriented Project on the Monthly Forecasting of Extreme Events in the Southwest Indian Ocean |
Sylvie MALARDEL1#+, Helene VEREMES1, Francois BONNARDOT2, Keunok LEE3
1Université de La Réunion - CNRS, France, 2Meteo-France, Reunion, 3CNRS - Université de La Réunion - Météo-France, Reunion |
| AS14-A014 |
Tropospheric Precursor and Predictability of the 2021 Sudden Stratospheric Warming |
Min-Jee KANG+, Hyeong-Oh CHO, Seok-Woo SON#
Seoul National University, Korea, South |
| AS14-A021 |
Evaluation of a Spatial Approach to the Verification of Gridded S2S Wind Forecasts for Southeast Asia |
Wee Leng TAN#+, Thea TURKINGTON, Shipra JAIN, Chen SCHWARTZ
Centre for Climate Research Singapore, Singapore |
| AS14-A016 |
The Subseasonal Prediction of Springtime Near-surface Temperature Evolution Over Indochina |
Mien-Tze KUEH#+, Chuan-Yao LIN
Academia Sinica, Taiwan |
| AS14-A017 |
Indian Ocean Dipole and its Impact on Southeast Asia: A Climate Service Perspective |
Shipra JAIN#+, Thea TURKINGTON, Wee Leng TAN, Chen SCHWARTZ
Centre for Climate Research Singapore, Singapore |
| AS14-A018 |
Study on Snow Data Assimilation Using Satellite Data Into the Jules Land Surface Model Based on LETKF |
Joonlee LEE+, Myong-In LEE#
Ulsan National Institute of Science and Technology, Korea, South |
| AS14-A020 |
The Winter North Pacific Teleconnection in Response to ENSO and the MJO in Operational Subseasonal Forecasting Models is Too Weak |
Chen SCHWARTZ1+, Chaim GARFINKEL2#, Wen CHEN3, Yanjie LI3, Daniela I.V. DOMEISEN4
1Centre for Climate Research Singapore, Singapore, 2Hebrew University of Jerusalem, Israel, 3Chinese Academy of Sciences, China, 4ETH Zurich, Switzerland |
| AS14-A019 |
Comparison of Monthly Rainfall Predictions Over Singapore for Improved Climate Services |
Thea TURKINGTON#+, Wee Leng TAN, Chen SCHWARTZ, Shipra JAIN
Centre for Climate Research Singapore, Singapore |
| AS14-A022 |
MJO-related Rainfall in Southeast Asia: How Well is it Represented by Subseasonal Operational Forecasting Models? |
Chen SCHWARTZ#+, Thea TURKINGTON
Centre for Climate Research Singapore, Singapore |
| AS14-A023 |
Influence of Compound Zonal Displacements of the South Asia High and the Western Pacific High on Meiyu Subseasonal Variation |
Zhiwei ZHU#+, Shanshan FU
Nanjing University of Information Science & Technology, China |
| AS14-A024 |
Seasonal Climate and Crop Prediction for Agricultural Decision Support |
Xinzhong LIANG#+, Chao SUN, Sanghoon SHIN
University of Maryland, United States |
| AS14-A025 |
The Transition of Stratospheric Polar Vortex Intensity and it Subseasonal Climate Predictability: A Case Study of Winter 1987/88 |
Ke FAN#+
Sun Yat-sen University, China |
| AS14-A026 |
Subseasonal to Seasonal (S2S) Forecast and Applications in Indonesia : Operational and Research Development |
Nurdeka HIDAYANTO+, Robi MUHARSYAH, Donaldi PERMANA#, Kharisma APRILINA, Supari SUPARI, Ummu MA'RUFAH, Danang Eko NURYANTO, Amsari Mudzakir SETIAWAN, Adi RIPALDI, Novi FITRIANTI, Adyaksa RAHARJA, Dodo GUNAWAN, Ardhasena SOPAHELUWAKAN, Supriyanto ROHADI, Dwikorita KARNAWATI
Indonesian Agency for Meteorology, Climatology and Geophysics, Indonesia |
| AS14-A027 |
Oceanic Rossby Wave Predictability in ECMWF’s S2S Model |
Jonathan CHRISTOPHERSEN#+, Adam RYDBECK, Maria FLATAU, Matthew JANIGA, Carolyn REYNOLDS, Tommy JENSEN, Travis SMITH
Naval Research Laboratory, United States |
| AS15 16th Sasaki Symposium on Data Assimilation for Atmospheric, Oceanic and Hydrologic Applications |
| Abstract ID |
Abstract Title |
Authors |
| AS15-A001 |
Impact of Assimilating FY-4A Atmospheric Motion Vectors on Henan 7.20 Rainstorm Forecast in 2021 |
Yanhui XIE#+
Beijing Research Center for Urban Meteorological Engineering and Technology, China |
| AS15-A002 |
Some Computational Issues in Machine Learning for Partial State Estimation |
Wei KANG1#+, Liang XU2
1Naval Postgraduate School, United States, 2Naval Research Laboratory, United States |
| AS15-A008 |
Impact of SMAP Soil Moisture Retrievals in the Coupled Atmosphere-land Surface Data Assimilation System with WRF-Noah LSM |
Sujeong LIM1+, Seon Ki PARK1#, Milija ZUPANSKI2
1Ewha Womans University, Korea, South, 2Colorado State University, United States |
| AS15-A003 |
Data Assimilation and the Precipitation Forecast Inconsistency |
Yidi XUE1, Xiang-Yu HUANG2#+, Yu XIA1, Bing LU1, Min CHEN1
1China Meteorological Administration, China, 2Institute of Urban Meteorology, CMA, China |
| AS15-A005 |
PREVENIR: Japan-Argentina Cooperation Project for Heavy Rain and Urban Flood Disaster Prevention |
Takemasa MIYOSHI1,2#+, Celeste SAULO3, Shigenori OTSUKA1, Juan RUIZ4, Yanina SKABAR3, Arata AMEMIYA1, Tomoo USHIO5, Hirofumi TOMITA6, Tomoki USHIYAMA7, Masaya KONISHI8
1RIKEN Center for Computational Science, Japan, 2University of Maryland, United States, 3National Meteorological Service Argentina, Argentina, 4University of Buenos Aires, Argentina, 5Osaka University, Japan, 6RIKEN Advanced Institute for Computational Science, Japan, 7International Center for Water Hazards and Risk Management, Japan, 8Japan Meteorological Agency, Japan |
| AS15-A006 |
Improving Air Quality Forecasting Through an Intelligent Optimization System: Sequential Optimization of Physical Parameterization Schemes and Parameters in WRF-Chem |
Ji Won YOON+, Ebony LEE, Seon Ki PARK#
Ewha Womans University, Korea, South |
| AS15-A012 |
Identifying Sensitive Areas for Targeted Observations to Improve Numerical Prediction of Asian Dust Storms Over South Korea |
Seungyeon LEE1+, Xiaohao QIN2, Seon Ki PARK1#
1Ewha Womans University, Korea, South, 2Chinese Academy of Sciences, China |
| AS15-A009 |
Assimilation of Aerosol Optical Depth from Geostationary Environmental Monitoring Spectrometer to Improve a Prediction of Asian Dust Storm |
Ebony LEE1+, Milija ZUPANSKI2, Seon Ki PARK1#
1Ewha Womans University, Korea, South, 2Colorado State University, United States |
| AS15-A010 |
Non-gaussian Based Kalman Filters |
Steven FLETCHER1#+, Senne VAN LOON2
1Colorado, United States, 2Colorado State University, United States |
| AS15-A011 |
Nongaussian Ensemble Data Assimilation |
Senne VAN LOON1#+, Steven FLETCHER2, Milija ZUPANSKI1
1Colorado State University, United States, 2Colorado, United States |
| AS15-A013 |
Current Status of the KIAPS Data Assimilation System, and Plans for Hydrometeor Analysis |
In-Hyuk KWON#+, Adam CLAYTON, Jeon-Ho KANG, Sihye LEE, Hanbyeol JEONG, Dayoung CHOI
Korea Institute of Atmospheric Prediction Systems, Korea, South |
| AS15-A016 |
How Does the Ensemble Benefit Ensemble-variational Data Assimilation in the Tropics? |
Joshua LEE1#+, Ross BANNISTER2, Javier AMEZCUA3
1Centre for Climate Research Singapore, Singapore, 2University of Reading, United Kingdom, 3Tecnológico de Monterrey, Campus Ciudad de México, Mexico |
| AS15-A014 |
Estimation of AMSU-A Radiance Observation Impacts in an AGCM-LETKF Data Assimilation System: Comparison with EFSO and OSEs |
Akira YAMAZAKI1#+, Koji TERASAKI2, Takemasa MIYOSHI3,4, Shunsuke NOGUCHI5
1Japan Agency for Marine-Earth Science and Technology, Japan, 2Meteorological Research Institute, Japan, 3RIKEN Center for Computational Science, Japan, 4University of Maryland, United States, 5Kyushu University, Japan |
| AS15-A015 |
Performances of All-sky Satellite Radiance Assimilations for the Prediction of Recent Northwest Pacific Super-typhoons |
Masashi MINAMIDE1,2#+
1The University of Tokyo, Japan, 2Jet Propulsion Laboratory, United States |
| AS15-A017 |
Combining Data Assimilation and Data-driven Sparse Sensing Placement Method for Designing Better Observation Locations |
Shunji KOTSUKI#+, Takumi SAITO, Mao OUYANG, Daiya SHIOJIRI
Chiba University, Japan |
| AS15-A018 |
A Hybrid Ensemble Biogeochemical Data Assimilation System for the Red Sea: Development, Implementation and Evaluation |
Mohamad EL GHARAMTI1, Siva Reddy SANIKOMMU2#+, Yixin WANG2, Matthew MAZLOFF3, Ariane VERDY4, Georgios KROKOS2, Rui SUN3, Aneesh SUBRAMANIAN5, Benjamin K. JOHNSON6, Angela Kuhn CORDOVA6, Bruce CORNUELLE3, Ibrahim HOTEIT2
1National Center for Atmospheric Research, United States, 2King Abdullah University of Science and Technology, Saudi Arabia, 3University of California San Diego, United States, 4Scripps institution of Oceanography, United States, 5University of Colorado Boulder, United States, 6Scripps Institution of Oceanography, United States |
| AS15-A019 |
Including Observation Error Correlation for Ensemble Radar Data Assimilation and its Impact on Heavy Rainfall Prediction |
Hao-Lun YEH1+, Shu-Chih YANG1#, Takemasa MIYOSHI2,3, Koji TERASAKI4
1National Central University, Taiwan, 2RIKEN Center for Computational Science, Japan, 3University of Maryland, United States, 4Meteorological Research Institute, Japan |
| AS16 The Organization Processes of Atmospheric Moist Convection |
| Abstract ID |
Abstract Title |
Authors |
| AS16-A001 |
Changes in the SST-precipitation Relationship Over the Indo-pacific Warm Pool Under a Warming Climate |
Hye-Ryeom KIM+, Kyung-Ja HA#
Pusan National University, Korea, South |
| AS16-A002 |
A Theory of Self-maintenance for the Madden-Julian Oscillation |
Guosen CHEN1#+, Bin WANG2
1Nanjing University of Information Science & Technology, China, 2University of Hawaii, United States |
| AS16-A007 |
Pressure Drag for Shallow Cumulus Clouds: From Thermals to the Cloud Ensemble |
Jian-Feng GU1#+, Robert PLANT2, Chris HOLLOWAY2, Mark MUETZELFELDT2
1Nanjing University, China, 2University of Reading, United Kingdom |
| AS16-A003 |
Warming Climate Intensifies Mesoscale Convective Systems During the Record-breaking Rainfall Event in July 2021 in Henan Province, China |
Zhongxi LIN1#+, Ji NIE1, Jun WANG2
1Peking University, China, 2Chinese Academy of Sciences, China |
| AS16-A004 |
Convectively-coupled Kelvin Waves: Moist Static Energy and Gross Moist Stability Analyses |
Yi-Bin HORNG+, Jia-Yuh YU#
National Central University, Taiwan |
| AS16-A006 |
Instabilities and Evolution of Radiative-convective Equilibrium |
Bolei YANG1#+, Zhe-Min TAN2, Ji NIE1
1Peking University, China, 2Nanjing University, China |
| AS16-A008 |
The Role of Diabatic Heating in the Transition from Mixed Rossby-gravity Waves to Tropical-depression-type Disturbances : A Case Study |
Xianpu JI+, Tao FENG#
Hohai University, China |
| AS16-A011 |
Climatology and Environmental Conditions of Two Types of Quasi-linear Convective Systems with Extremely Intense Weather in North China |
Jie SHENG#+
National Meteorological Center of China, China |
| AS16-A012 |
On the Evolution of Tropopause Layer Cooling Over Tropical Cyclone |
Kekuan CHU1#+, Jiayue YIN1, Zhe-Min TAN1, Jian-Feng GU1, Hao-Yan LIU2
1Nanjing University, China, 2Hohai University, China |
| AS17 Application of Satellite Data to Weather, Climate and Environmental Study |
| Abstract ID |
Abstract Title |
Authors |
| AS17-A020 |
Retrieval of Total Precipitable Water from Gk2A/AMI Data Using Machine Learning Approach Over Korea |
Hyejin MOON1#+, Jae-Young BYON2, Myoung-Hee LEE3
1National Meteorological Satellite Center, Korea, South, 2National Institute of Meteorological Research, Korea, South, 3Korea Meteorological Administration, Korea, South |
| AS17-A001 |
The Insights from Twenty Years of AIRS Radiances and an Outlook for the Incoming Decade: A Climate Perspective |
Xianglei HUANG1#, Xiuhong CHEN1, Larrabee STROW2, Chongxing FAN1+, Norman LOEB3, Seiji KATO3, Qing YUE4
1University of Michigan, United States, 2University of Maryland, Baltimore County, United States, 3NASA Langley Research Center, United States, 4California Institute of Technology, United States |
| AS17-A002 |
Impacts of All-sky Assimilation of FY-3C and FY-3D MWHS-2 Radiances on the Analysis and Forecasts of Typhoon Hagupit |
Keyi CHEN1#+, Zhenxuan CHEN1, Zhipeng XIAN2
1Chengdu University of Information Technology, China, 2Chinese Academy of Sciences, China |
| AS17-A003 |
Using Satellite Microwave Sounder to Observe Strong Storms at the Pre-convection Stage |
Min MIN1#+, Xiaocheng WEI2
1Sun Yat-sen University, China, 2National Satellite Meteorological Center, China |
| AS17-A004 |
Extension of the Global All-sky Infrared Radiance Assimilation of Himawari |
Kozo OKAMOTO#+, Toshiyuki ISHIBASHI, Izumi OKABE
Japan Meteorological Agency, Japan |
| AS17-A005 |
Virtual RGB Bands of Advanced Meteorological Imager Onboard Geo-KOMSAT-2A Through Data-to-data Translation |
Kyung-Hoon HAN1+, Sumin RYU2, Eunha SOHN3, Jae-Cheol JANG3, Sungwook HONG1#
1Sejong University, Korea, South, 2Korea Aerospace Research Institute, Korea, South, 3Korea Meteorological Administration, Korea, South |
| AS17-A006 |
NDWI and Near-Infrared Bands based Cloud Detection Method Using CALIPSO Satellite for GEO-KOMPSAT-2A Satellite |
Yunjeong CHOI+, Sungwook HONG#
Sejong University, Korea, South |
| AS17-A008 |
Monitoring of NOAA Satellite Land Surface Products and Their Anomalies |
Peng YU1,2#+, Yunyue YU2, Jingjing PENG1,2, Yuling LIU1, Heshun WANG2, Zhangyan JIANG3, Corinne CARTER3, Lei JI1,2, Yuan ZHOU3
1University of Maryland, United States, 2National Oceanic and Atmospheric Administration, United States, 3National Oceanic and Atmospheric Administration STAR, United States |
| AS17-A009 |
Applying GPM Satellite Observations to Evaluate and Improve the Forecast of Landfalling Tropical Cyclones |
Zuhang WU#+, Yun ZHANG, Yanqiong XIE, Hepeng ZHENG
National University of Defense Technology, China |
| AS17-A011 |
Validation, Analysis, and Comparison of MISR V23 Aerosol Optical Depth Products with MODIS and AERONET Observations |
Ruonan FAN+, Yingying MA, Shikuan JIN#
Wuhan University, China |
| AS17-A012 |
Toward a Versatile Spaceborne Architecture for Immediate Monitoring of the Global Methane Pledge |
Pengfei LI#+
Hebei Agricultural University, China |
| AS17-A014 |
Tracking Atmospheric Moisture Motion for Three-dimensional Horizontal Winds from Geostationary Hyperspectral Infrared Measurements |
Jun LI1#+, Wei HAN2, Di DI3, Zheng MA4, Ruoying YIN2, Zhenglong LI5, W. Paul MENZEL5
1National Satellite Meteorological Center, China, 2Chinese Meteorological Administration, China, 3Nanjing University of Information Science & Technology, China, 4Chinese Academy of Sciences, China, 5University of Wisconsin-Madison, United States |
| AS17-A019 |
Cloud Identification and Properties Retrieval of the Fengyun-4A Satellite Using a Resunet Model |
Feng ZHANG1#+, Zhijun ZHAO1, Qiong WU2, Zhengqiang LI3, Xuan TONG1, Jingwei LI4, Wei HAN5
1Fudan University, China, 2Shanghai Central Meteorological Observatory, China, 3Chinese Academy of Sciences, China, 4Shanghai Qi Zhi Institute, China, 5Chinese Meteorological Administration, China |
| AS17-A022 |
Development of Atmospheric Profile Retrieval Algorithm for FY-4A/B GIIRS |
Hye-In PARK1#+, Byung-il LEE2, Junhyung HEO1, Myoung-Hee LEE1
1Korea Meteorological Administration, Korea, South, 2National Meteorological Satellite Center / Korea Meteorological Administration, Korea, South |
| AS17-A023 |
A Pre-processing Method for Better Assimilation of Microwave Sounding Observations Over Sea Ice for Numerical Weather Prediction |
Jisoo KIM+, Myoung Hwan AHN#
Ewha Womans University, Korea, South |
| AS17-A025 |
Update of Global Maps of Alisov's Climate Classification Using an Unsupervised Machine-learning Algorithm |
Ryu SHIMABUKURO1#+, Tomohiko TOMITA1, Ken-ichi FUKUI2
1Kumamoto University, Japan, 2Osaka University, Japan |
| AS17-A026 |
Cloud Properties of Hot Towers During Slow and Rapid Intensification of Tropical Cyclones in the Western North Pacific |
Jason Pajimola PUNAY1#+, Chian-Yi LIU2
1Bicol University, Philippines, 2Academia Sinica, Taiwan |
| AS17-A024 |
Radial Distribution of Deep Convective Clouds Preceding Rapid Intensification of the Tropical Cyclones in the Western North Pacific |
Chian-Yi LIU1#+, Jason Pajimola PUNAY2
1Academia Sinica, Taiwan, 2Bicol University, Philippines |
| AS17-A030 |
Time Series Analysis of Monthly Averaged Insolation Across Metro Cities of India |
Srinivasa Ramanujam KANNAN#+
Indian Institute of Technology Bhubaneswar, India |
| AS17-A029 |
Construction of Rooftop Albedo Database from Open Satellite Images: Application of Super Resolution Algorithm |
Makoto NAKAYOSHI1#+, Kosho IDO1, Shiho ONOMURA1, Yuya TAKANE2, Benjamin CRAWFORD3, Ryo KANEKO4, Yuta WATANABE1, Masuo NAKANO5
1Tokyo University of Science, Japan, 2National Institute of Advanced Industrial Science and Technology, Japan, 3University of Colorado Denver, United States, 4The University of Tokyo, Japan, 5Japan Agency for Marine-Earth Science and Technology, Japan |
| AS17-A031 |
Evaluation of the Ground-based Microwave Radiometer Data and Its Unified Application with Satellite-based Sounder Observations |
Yan-An LIU1#+, Meng LIU1, Jiong SHU1, Jun LI2
1East China Normal University, China, 2National Satellite Meteorological Center, China |
| AS17-A035 |
Surface Short-wave Radiation Estimation and Spatiotemporal Variation Analysis in China Based on the New Generation Geostationary Satellite |
Gegen TANA1#+, Jian XU2, Chong SHI3, Jiancheng SHI1
1Chinese Academy of Sciences, China, 2National Space Science Center, Chinese Academy of Sciences, China, 3Aerospace Information Research Institute, Chinese Academy of Sciences, China |
| AS17-A037 |
Cloud Properties and Surface Solar Radiations Observed from Global New Geostationary Satellites |
Husi LETU#+, Huazhe SHANG, Liangfu CHEN
Chinese Academy of Sciences, China |
| AS17-A036 |
Rainfall Intercomparison of Grid Satellite Rainfall Products and Gauge Station Dataset Over Complex Terrain in Bali Province, Indonesia |
Putu ARYASTANA1#+, Chian-Yi LIU2
1Warmadewa University, Indonesia, 2Academia Sinica, Taiwan |
| AS17-A039 |
Estimating Carbon Dioxide Emissions with the Orbiting Carbon Observatory-2 |
Chunlin JIN+, Yong XUE#, Tao YUAN, Liang ZHAO
China University of Mining and Technology, China |
| AS18 The Science and Prediction of Tropical Cyclones |
| Abstract ID |
Abstract Title |
Authors |
| AS18-A001 |
The Dependence of Tropical Cyclone Pressure Tendency on Size |
Ralf TOUMI#+, Nathan SPARKS
Imperial College London, United Kingdom |
| AS18-A002 |
Three-dimensional Fujiwhara Effect in the Western North Pacific |
Kosuke ITO1#+, Soichiro HIRANO2, Jaedeok LEE3, Johnny CHAN4,5
1Kyoto University, Japan, 2University of the Ryukyus, Japan, 3Kongju National University, Korea, South, 4Asia-Pacific Typhoon Collaborative Research Center, China, 5City University of Hong Kong, Hong Kong SAR |
| AS18-A003 |
On the Alleged Tropical Cyclogenesis Induced by a Pre-existing Tropical Cyclone |
Kenji YAMAUCHI1, Kosuke ITO2#+
1University of the Ryukyus, Japan, 2Kyoto University, Japan |
| AS18-A004 |
Formation Mechanism of TC Secondary Eyewall by Numerical Experiments: Role of Dry Air Inflow from the Middle and Upper Troposphere and Cooling by Evaporation and Sublimation |
Kyohei KASAMI, Masaki SATOH#+
The University of Tokyo, Japan |
| AS18-A005 |
Tropical Cyclones Intensity Prediction in the Western North Pacific Using Gradient Boosted Regression Tree Model |
Qinglan LI#+, Gangya ZHU
Chinese Academy of Sciences, China |
| AS18-A006 |
Are You Typhoon Ready? - Typhoon Ready System - |
Woo-Sik JUNG#+, Hana NA
Inje University, Korea, South |
| AS18-A007 |
Rapid Growth of Outer Size of Tropical Cyclones: A New Perspective on Their Destructive Potential |
Yi LI1+, Youmin TANG1#, Shuai WANG2
1Hohai University, China, 2Princeton University, United States |
| AS18-A008 |
On Tropical Cyclone Genesis Types and Their Intensification Rate |
Ming-Han CHUNG#+, Chun-Chieh WU
National Taiwan University, Taiwan |
| AS18-A009 |
Prediction of Tropical Cyclogenesis Based on Machine Learning Methods and its Shap Interpretation |
Chi Lok LOI#+, Chun-Chieh WU, Yu-Chiao LIANG
National Taiwan University, Taiwan |
| AS18-A010 |
A Seesaw Variability in Tropical Cyclone Genesis Between the Western North Pacific and the North Atlantic Shaped by Atlantic Multidecadal Variability |
Liguang WU1, Chao WANG2#+, Bin WANG3
1Fudan University, China, 2Nanjing University of Information Science & Technology, China, 3University of Hawaii, United States |
| AS18-A011 |
Maintenance Mechanisms of the Long-lived Concentric Eyewall Structure of Typhoon Lekima (2019): Axisymmetric Perspective |
Shang-En LI#+, Ming-Jen YANG, Hung-Chi KUO
National Taiwan University, Taiwan |
| AS18-A012 |
Diurnal Variations in Tropical Cyclone Intensification and Size Growth |
Qiaoyan WU#+
Second Institute of Oceanography, China |
| AS18-A014 |
Increase in Tropical Cyclone Rain Rate with Translation Speed |
Shifei TU1#+, Johnny CHAN2,3, Jianjun XU1, Quanjia ZHONG4, Wen ZHOU5, Yu ZHANG1
1Guangdong Ocean University, China, 2Asia-Pacific Typhoon Collaborative Research Center, China, 3City University of Hong Kong, Hong Kong SAR, 4Chinese Academy of Sciences, China, 5Fudan University, China |
| AS18-A013 |
Detection of Typhoons with Complex Tracks Using Their Steering Angles |
Kyoko TAMURA#+, Tsubasa KOHYAMA
Ochanomizu University, Japan |
| AS18-A015 |
Influence of Synoptic-Scale Waves on the Interdecadal Change of Tropical Cyclone Activity Over the Northwestern Pacific in the Early-2010s |
Jingliang HUANGFU#+, Yulian TANG, Ronghui HUANG
Chinese Academy of Sciences, China |
| AS18-A019 |
Impact of Tropical Cyclones Over the Eastern North Pacific on El Niño–southern Oscillation Intensity |
Qiuyun WANG+, Zhe-Min TAN#
Nanjing University, China |
| AS18-A018 |
Simulation and Projection of Tropical Cyclone Activities Over the Western North Pacific by CMIP6 HighResMIP |
Yulian TANG+, Jingliang HUANGFU#, Ronghui HUANG
Chinese Academy of Sciences, China |
| AS18-A020 |
On the Role of Cloud Radiative Effect in Tropical Cyclogenesis |
Chun-Kai HSU#+, Chun-Chieh WU
National Taiwan University, Taiwan |
| AS18-A021 |
Effect of the Initial Vortex Vertical Structure on Early Development of an Axisymmetric Tropical Cyclone |
Ke PENG1#+, Juan FANG2
1Nanjing University of Information and Technology, China, 2Nanjing University, China |
| AS18-A022 |
Uncertainties in Tropical Cyclone Landfall Decay |
Kelvin T. F. CHAN1#+, Johnny CHAN2,3, Kailin ZHANG1, Yue WU1
1Sun Yat-sen University, China, 2Asia-Pacific Typhoon Collaborative Research Center, China, 3City University of Hong Kong, Hong Kong SAR |
| AS18-A025 |
Tropical Cyclone Size Asymmetry Index and Climatology |
Lifeng XU+, Kelvin T. F. CHAN#, Kailin ZHANG
Sun Yat-sen University, China |
| AS18-A028 |
Effects of Megacities on Tropical Cyclone Precipitation Over Pearl River Delta, China |
Yukun YANG#+
Nanjing University, China |
| AS18-A043 |
Diurnal Variations on the Initiation Time and Intensification Rate of Rapidly Intensifying Tropical Cyclones |
Xinyan ZHANG#+, Weixin XU
Sun Yat-sen University, China |
| AS18-A027 |
Quantifying the Contribution of Track Changes to Interannual Variations of North Atlantic Intense Hurricanes |
Liguang WU#+
Fudan University, China |
| AS18-A029 |
An Observational Study of Quasi-Periodic Lightning Activity in the Inner Core of Super Typhoon Hato (2017) Before Landfall |
Yuanyuan XU1#+, Hao HUANG1, Qingqing LI2
1Nanjing University, China, 2Nanjing University of Information Science & Technology, China |
| AS18-A030 |
Near-shore Rapid Intensification of Tropical Cyclones |
Johnny CHAN1,2#+, Charlie C. F. LOK2, Ralf TOUMI3
1Asia-Pacific Typhoon Collaborative Research Center, China, 2City University of Hong Kong, Hong Kong SAR, 3Imperial College London, United Kingdom |
| AS18-A032 |
Consistent Pattern of Rainfall Asymmetry in Binary Tropical Cyclones |
Jian-Feng GU1+, Hao-Yan LIU2#, Yuqing WANG3
1Nanjing University, China, 2Hohai University, China, 3Chinese Academy of Meteorological Sciences, China |
| AS18-A034 |
Effect of Model Resolution on Simulation of Tropical Cyclone Landfall in East Asia Based on a Comparison of 25- and 50-km HiRAMs |
Kuan-Chieh CHEN1#+, Chihhua TSOU2, Chi-Cherng HONG1, Huang-Hsiung HSU3, Chia-Ying TU3
1University of Taipei, Taiwan, 2National Taiwan Normal University, Taiwan, 3Academia Sinica, Taiwan |
| AS18-A046 |
Validation of Typhoon Forecasts Simulated by the Numerical Weather Prediction Models and Analysis of its Biases |
Kyeong-Chan SHIN1#+, Hyun-Mi KIM2, Jung-Rim LEE1, Seong-Hee WON1, Hyun-Soo LEE1
1Korea Meteorological Administration, Korea, South, 2Korea Meteorological Administration , Korea, South |
| AS18-A033 |
Track Deflection of a Tropical Cyclone Past a Mountain Range as Explored by Idealized Simulations |
Po-Chen LIN#+, Ching-Yuang HUANG
National Central University, Taiwan |
| AS18-A040 |
Estimation of Tropical Cyclone Intensity Based on Deep Learning Using Two Geostationary Satellite Data |
Hye-Yoon JUNG1+, Il-Ju MOON2#, Dong-Hoon KIM2
1Interdisciplinary Postgraduate Program in Marine Meteorology, Korea, South, 2Jeju National University, Korea, South |
| AS18-A036 |
Long-term Analysis of Tropical Cyclone Intensity Using MPI Theory Based on HighResMIP Projections |
Shun ITO#+, Nobuhito MORI, Tomoya SHIMURA, Takuya MIYASHITA
Kyoto University, Japan |
| AS18-A038 |
Statistical Seasonal Forecasting of Tropical Cyclone Utilizing Preseason Predictors |
Chak Wai LO1+, Kelvin T. F. CHAN1#, Oscar Y. W. ZHANG2, Minglin ZHENG3, Lifeng XU1
1Sun Yat-sen University, China, 2The Hong Kong University of Science and Technology, Hong Kong SAR, 3National University of Defense Technology, China |
| AS18-A039 |
Future Changes in Tropical Cyclone Activity Over the Western North Pacific by Chlorophyll Under Global Warming |
Han-Kyoung KIM1+, Jong-yeon PARK1#, Doo-Sun PARK2, Sang-Wook YEH3, Jong-Seong KUG4, Jun-Hyuk SON5
1Jeonbuk National University, Korea, South, 2Kyungpook National University, Korea, South, 3Hanyang University, Korea, South, 4Pohang University of Science and Technology, Korea, South, 5Korea Power Exchange, Korea, South |
| AS18-A041 |
Counterbalancing Impacts from Historical Anthropogenic Aerosols and Greenhouse Gases on Global-scale Tropical Cyclone Genesis Potential |
Haikun ZHAO1#+, Jian CAO1, Bin WANG2, Liguang WU3
1Nanjing University of Information Science & Technology, China, 2University of Hawaii, United States, 3Fudan University, China |
| AS18-A042 |
Utilizing a Causal Discovery to Identify Robust Tropical Cyclone Predictors Across the North Indian Ocean |
Akshay kumar SAGAR1#+, Arun CHAKRABORTY1, Swadhin BEHERA2, Abhishek KUMAR1, Pankaj KUMAR1
1Indian Institute of Technology Kharagpur, India, 2Japan Agency for Marine-Earth Science and Technology, Japan |
| AS18-A044 |
Multidecadal Variability of Tropical Cyclone Translation Speed Over the Western North Pacific |
Yi-Peng GUO#+
Nanjing University, China |
| AS18-A045 |
High-resolution Simulation of Tropical Cyclone Debbie (2017): The Current and Future Changes in the Inner-core Structure and Evolution During Offshore Rapid Intensification |
Difei DENG1#+, Elizabeth A. RITCHIE2
1UNSW Canberra, Australia, 2Monash University, Australia |
| AS18-A049 |
Rainfall Strength and Area from Landfalling Tropical Cyclones Over the North Indian and Western North Pacific Oceans Under Greenhouse Warming |
Mincheol MOON+, Kyung-Ja HA#
Pusan National University, Korea, South |
| AS18-A047 |
A New Method to Estimate Circulations in Tropical Cyclones from Single-Doppler Radar Observations |
Satoki TSUJINO1#+, Takeshi HORINOUCHI2, Udai SHIMADA3
1Meteorological Research Institute, Japan, 2Hokkaido University, Japan, 3Japan Meteorological Agency, Japan |
| AS18-A048 |
Cloud-radiation Feedback Prevents Tropical Cyclones from Reaching Higher Intensities |
Bolei YANG1#+, Xi GUO2, Jian-Feng GU3, Ji NIE1
1Peking University, China, 2Jiangsu Meteorological Observatory, China, 3University of Reading, United Kingdom |
| AS18-A052 |
Sea Surface Wind Structure in the Outer Region of Tropical Cyclones Observed by Wave Gliders |
Di TIAN#, Han ZHANG+
Second Institute of Oceanography, Ministry of Natural Resources, China |
| AS18-A050 |
Investigating the Definition of Rapid Intensification in Typhoons: A Process-based Approach |
Cheng-Hsiang CHIH+, Chun-Chieh WU#, Yi-Hsuan HUANG
National Taiwan University, Taiwan |
| AS18-A051 |
Intensification Study of Tropical Cyclone Batsirai (2022) Using High-resolution Mesoscale Numerical Model |
Keunok LEE1#+, Soline BIELLI2
1CNRS - Université de La Réunion - Météo-France, Reunion, 2Université de La Réunion - CNRS, France |
| AS18-A053 |
Super Typhoon Hinnamnor (2022) with a Record-breaking Lifespan Over the Western North Pacific |
Qian WANG1+, Dajun ZHAO2#, Yihong DUAN3, Shoude GUAN4
1Fudan University, China, 2Chinese Academy of Meteorological Sciences, China, 3China Meteorological Administration, China, 4Ocean University of China, China |
| AS18-A056 |
Quantifying the Environmental Effects on Tropical Cyclone Intensity Change Using a Simple Dynamically Based Dynamical System Model |
Jing XU1#+, Yuqing WANG1, Chi YANG2
1Chinese Academy of Meteorological Sciences, China, 2Beijing Normal University, China |
| AS18-A055 |
Changes in the Structure and Intensity of Tropical Cyclones Associated with Diurnal Pulsing |
Weixin XU#+, Xinyan ZHANG
Sun Yat-sen University, China |
| AS18-A057 |
Multi-scale Interaction and Predictability of the Onset of Tropical Cyclone Rapid Intensification |
Masashi MINAMIDE1,2#+, Derek POSSELT2
1The University of Tokyo, Japan, 2Jet Propulsion Laboratory, United States |
| AS18-A058 |
Characteristics of Deep Convective Clouds, Precipitation, and Cloud Properties of Rapidly Intensifying Tropical Cyclones in the Western North Pacific |
Jason Pajimola PUNAY1#+, Chian-Yi LIU2, Chun-Chieh WU3, Kaoshen CHUNG4, Putu ARYASTANA5
1Bicol University, Philippines, 2Academia Sinica, Taiwan, 3National Taiwan University, Taiwan, 4National Central University, Taiwan, 5Warmadewa University, Indonesia |
| AS18-A059 |
Impact of Soil Moisture Initialization on Poleward-moving Tropical Cyclone Forecasts |
Jinyoung PARK+, Dong-Hyun CHA#
Ulsan National Institute of Science and Technology, Korea, South |
| AS18-A060 |
The Effect of Low Salinity Water on Interaction Between Ocean and Typhoon Chaba (2016) Passing Over East China Sea |
Woojin CHO#+, Jinyoung PARK, Dong-Hyun CHA
Ulsan National Institute of Science and Technology, Korea, South |
| AS18-A062 |
Tropical Cyclone Motion Under Global Warming –Track Cluster Analysis |
Yi-Hsuan HUANG1+, Yi-Chen LI1, Chun-Chieh WU1#, Huang-Hsiung HSU2, Hsin-Chien LIANG2
1National Taiwan University, Taiwan, 2Academia Sinica, Taiwan |
| AS18-A064 |
Kinetic Energy Budget Associated with Movement of Maximum Wind During the Rapid Intensification of Tropical Cyclone Khanun (2017) |
Yishe SHI#+
Zhejiang University, China |
| AS18-A065 |
Uncertainty in Tropical Cyclone Frequency Projection Linked to Uncertainty in Western North Pacific Cloud Feedback |
Tsung-Lin HSIEH#+
Princeton University, United States |
| AS18-A066 |
A Comparison Study of Kinetic and Potential Energy Budgets of Typhoon Mujigae (2015) Between the Slow and Rapid Intensification |
Chi ZHANG#+
Zhejiang University, China |
| AS18-A070 |
Evolution of Background Circulation and Thermodynamic Conditions Before and After the Onset of Typhoon Rapid Intensification |
Shuanzhu GAO#+, Xinyan LYU
National Meteorological Center, China |
| AS18-A071 |
Multi-scale Characteristics of an Extreme Rain Event in Shandong Province Produced by Typhoon Lekima (2019) |
Yi ZHANG#+
Nanjing University, China |
| AS18-A072 |
Tropical Cyclone Events Observed by Naval Ships Along Japan Waters During the 1850s and 1860s |
Hisayuki KUBOTA1#+, Togo TSUKAHARA2, Junpei HIRANO3, Jun MATSUMOTO4,5, Masumi ZAIKI6, Takehiko MIKAMI4, Rob ALLAN7, Clive WILKINSON8, Sally WILKINSON8, Alice DE JONG9
1Hokkaido University, Japan, 2Kobe University, Japan, 3Teikyo University, Japan, 4Tokyo Metropolitan University, Japan, 5Japan Agency for Marine-Earth Science and Technology, Japan, 6Seikei University, Japan, 7International ACRE Project, Greece, 8CSW Associates Data Services, United Kingdom, 9Leiden University, Netherlands |
| AS19 Extreme Weather Resiliency: Prediction and Response Strategies |
| Abstract ID |
Abstract Title |
Authors |
| AS19-A001 |
Statistical Post-processing of Week 3-4 Precipitation Forecasts Over Taiwan |
Joyce JUANG1#+, Hui-Ling CHANG1,2, Shih-Chun CHOU3, Chih-Yung Feng FENG4, Han-Fang LIN4, Jing-Shan HONG1
1Central Weather Bureau, Taiwan, 2National Central University, Taiwan, 3International Integrated Systems, Inc., Taiwan, 4Manysplended Infotech Ltd, Taiwan |
| AS19-A002 |
The Interactions Among Southwesterly Monsoon Flow, Typhoon, Mei-yu Front, Terrain and Heavy Rainfall |
Chuan-Chi TU#+, Pay-Liam LIN, Siang-Yu ZHAN, Pei-Chun TSAI, You-Ting LIN
National Central University, Taiwan |
| AS19-A003 |
Precipitation Characteristics of Tropical Cyclones During Summer Monsoon Season in the North Indian Ocean |
Surya Pramod JALAKAM1+, Pay-Liam LIN1#, Wei-Yu CHANG1, Balaji Kumar SEELA1,2, Jayalakshmi JANAPATI1
1National Central University, Taiwan, 2Academia Sinica, Taiwan |
| AS19-A004 |
An Insight Into the Microphysical Attributes of Northwest Pacific Tropical Cyclones |
Balaji Kumar SEELA1,2+, Jayalakshmi JANAPATI1, Pay-Liam LIN1#, Meng-Tze LEE3
1National Central University, Taiwan, 2Academia Sinica, Taiwan, 3McGill University, Canada |
| AS19-A014 |
Influence of COVID-19 Pandemic on Rain Microphysics Over Taiwan |
Balaji Kumar SEELA1,2+, Jayalakshmi JANAPATI1, Pay-Liam LIN1#
1National Central University, Taiwan, 2Academia Sinica, Taiwan |
| AS19-A005 |
Impact of Global Warming on the Characteristics of Tropical Depression in Southwest Indian Ocean Investigating by ARPEGE Simulations |
Chia-Lun TSAI1#+, Olivier BOUSQUET2, Sylvie MALARDEL3, Julien CATTIAUX4, Fabrice CHAUVIN4
1Chinese Culture University, Taiwan, 2Meteo-France, France, 3Université de La Réunion - CNRS, France, 4Université de Toulouse - CNRS, France |
| AS19-A006 |
An Investigation on the Regional Characteristics of Summer Season Rainfall Over Taiwan Using GPM DPR Measurements |
Jayalakshmi JANAPATI1+, Balaji Kumar SEELA1,2, Pay-Liam LIN1#
1National Central University, Taiwan, 2Academia Sinica, Taiwan |
| AS19-A007 |
Cloud Radiative Effects on the Development of Tropical Cyclones: Role of Cloud Vertical Structure |
Enwang LUO1#+, Guoxing CHEN1, Wei-Chyung WANG2
1Fudan University, China, 2University at Albany - State University of New York, United States |
| AS19-A017 |
Using ISCA GCM with Dry Dynamical Core Examine to Simulate the Glacial Climate in Taiwan |
Pin-Hsiu KUO1#+, Yu-Hsiang HUANG1, Po-Yu CHUANG1, Chien-Chung KE1, Kai-Chih TSENG2
1Sinotech Engineering Consultants, Inc., Taiwan, 2National Taiwan University, Taiwan |
| AS19-A008 |
Causes of the Record-breaking Drought in Taiwan in 2020-2021 |
Huang-Hsiung HSU1#, Ming-Ying LEE2, Hao-Jhe HONG1+, Chao-An CHEN3
1Academia Sinica, Taiwan, 2Central Weather Bureau, Taiwan, 3National Science and Technology Center for Disaster Reduction, Taiwan |
| AS19-A009 |
High-resolution Time-lagged Rainfall Forecasts for Typhoons and Predetermination of Their Qualities Through Machine Learning |
Chung-Chieh WANG#+, Shin-Hau CHEN
National Taiwan Normal University, Taiwan |
| AS19-A010 |
A Study on Microphysical Characteristics of Mei-yu Season Rainfall Over Taiwan |
Jayalakshmi JANAPATI1+, Balaji Kumar SEELA1,2, Pay-Liam LIN1#
1National Central University, Taiwan, 2Academia Sinica, Taiwan |
| AS19-A011 |
Investigating the Weather Effects of Smoke Aerosols in the Unified Forecast System: A Study of 2020 Summer North America Wildfires |
Sarah LU1#+, Shih-Wei WEI1, Dustin GROGAN1, Anning CHENG2, Partha BHATTACHARJEE2, Jeffery MCQUEEN2
1University at Albany, State University of New York, United States, 2National Oceanic and Atmospheric Administration, United States |
| AS19-A013 |
The Interdecadal Change of Relationship Between Ocean-atmospheric Thermal Environment and Typhoon Intensity in the Northwest Pacific Ocean |
Chieh CHANG#+, Pay-Liam LIN
National Central University, Taiwan |
| AS19-A012 |
Roles of Marine Boundary Layer Jet on Heavy Rainfall Over Taiwan During Early Summer Rainy Season |
Chuan-Chi TU1#+, Chung-Hsiung SUI2, Mong-Ming LU2, Pay-Liam LIN1, Ching-Hsuan WU2
1National Central University, Taiwan, 2National Taiwan University, Taiwan |
| AS19-A015 |
Simulation of the Diurnal Forcing in the Heavy Rainfall Event Produced by the Prefrontal MCS During Mei-yu Season |
Siang-Yu ZHAN#+, Pay-Liam LIN
National Central University, Taiwan |
| AS19-A019 |
Potential Changes of Westward-typhoon Near Taiwan Under a Global Warming Climate |
Chen-Hau LAN1+, Pay-Liam LIN1#, Wei-Chyung WANG2, Sarah LU3
1National Central University, Taiwan, 2University at Albany - State University of New York, United States, 3University at Albany, State University of New York, United States |
| AS19-A018 |
Evaluation of One-day-ahead Probabilistic 100-meter Wind Speed Forecasts Produced by the WRF Ensemble Prediction System in Taiwan |
Shih-Chun CHOU1#+, Hui-Ling CHANG2,3, Chung Ho HORNG2, Chih-Yung Feng FENG4, Han-Fang LIN4, Pay-Liam LIN3
1International Integrated Systems, Inc., Taiwan, 2Central Weather Bureau, Taiwan, 3National Central University, Taiwan, 4Manysplended Infotech Ltd, Taiwan |
| AS19-A021 |
Improved Extended-range Probabilistic Forecasts of Extreme Precipitation Events Over Taiwan Using Analog Post-processing |
Hui-Ling CHANG1,2#+, Shih-Chun CHOU3, Pay-Liam LIN2, Jing-Shan HONG1
1Central Weather Bureau, Taiwan, 2National Central University, Taiwan, 3International Integrated Systems, Inc., Taiwan |
| AS19-A020 |
Analysis of Microphysics Process of Afternoon Thunderstorm Using Raindrop Size Distribution Retrieval from Polarimetric Radar Measurements |
Chen-Hau LAN#+, Pay-Liam LIN
National Central University, Taiwan |
| AS19-A022 |
Low Level Jets and Heavy Rainfall Events Over Taiwan Revealed from Wind Profiler Radars |
Pay-Liam LIN#+, Yen-LIng LIOU
National Central University, Taiwan |
| AS19-A023 |
Evaluation of Probabilistic Forecasts of Consecutive 5 Days Without Measurable Rainfall Over Taiwan |
Shih-Chun CHOU1#+, Hui-Ling CHANG2,3, Tsun-Wen LO2, Chih-Yung Feng FENG4, Han-Fang LIN4
1International Integrated Systems, Inc., Taiwan, 2Central Weather Bureau, Taiwan, 3National Central University, Taiwan, 4Manysplended Infotech Ltd, Taiwan |
| AS19-A024 |
Investigating the Warm Rain Process by Assimilating Dual-polarimetric Radar Data in Wintertime: A Case Study of Shallow Convection Event in Northeastern Taiwan |
Chin-Chuan CHANG#+, Kaoshen CHUNG, Bing-Xue ZHUANG
National Central University, Taiwan |
| AS19-A025 |
The Application of 3D Motion Fields in Radar Extrapolation Nowcasting: Case Study of Meiyu Front and Autumn Precipitation |
Yu Chiao HSU#+, Kaoshen CHUNG, Yi-Hao ZHOU
National Central University, Taiwan |
| AS19-A026 |
Sensitivity of Extreme Rainfall in Taiwan to SST Over the South China Sea Through Modulation of Marine Boundary Layer Jet |
Kuan-Jen LIN1+, Shu-Chih YANG1#, Shuyi CHEN2
1National Central University, Taiwan, 2University of Washington, United States |
| AS19-A027 |
Use Wind Profiler and Disdrometer to Analyze the Circulation and Rainfall Microphysics of Typhoons |
Jun-Yan LI#+, Pay-Liam LIN, Chuan-Chi TU, Siang-Yu ZHAN, Chen-Hau LAN
National Central University, Taiwan |
| AS19-A028 |
Analysis and Simulations of a Heavy Rainfall Event Associated with the Passage of a Shallow Front Over Northern Taiwan on 2 June 2017 |
Chuan-Chi TU1#+, Yi-Leng CHEN2,1, Pay-Liam LIN1, Mu-Qun HUANG1
1National Central University, Taiwan, 2University of Hawaii at Manoa, United States |
| AS20 Weather and Climate Studies with High Performance Computing |
| Abstract ID |
Abstract Title |
Authors |
| AS20-A001 |
An Overview of the Development of a Unified Weather-climate Model System (GRIST) in China |
Yi ZHANG1#+, Jian LI2, Xiaohan LI1, Zhuang LIU3, Yihui ZHOU2, Xindong PENG4,5, Xinyao RONG5, Yiming WANG1, Rucong YU2
1PIESAT Information Technology Co., Ltd., China, 2Chinese Academy of Meteorological Sciences, China, 3Tsinghua University, China, 4Chinese Academy of Meteorological Sciences, and CMA Earth System Modelling and Prediction Centre, China, 5CMA Earth System Modeling and Prediction Center, China |
| AS20-A002 |
EXCLAIM: Extreme Scale Computing and Data Platform for Cloud-resolving Weather and Climate Modelling |
Anurag DIPANKAR1#+, Mauro BIANCO2
1ETH Zurich, Switzerland, 2Swiss National Supercomputing Centre, Switzerland |
| AS20-A003 |
Global-regional-unified Modeling of Atmospheric Phenomena on the Yin-yang Grid |
Xindong PENG1,2#+, Siyuan CHEN3, Yifan ZHAO3, Xiaohan LI4
1Chinese Academy of Meteorological Sciences, and CMA Earth System Modelling and Prediction Centre, China, 2CMA Earth System Modeling and Prediction Center, China, 3Chinese Academy of Meteorological Sciences, China, 4PIESAT Information Technology Co., Ltd., China |
| AS20-A006 |
Convolutional Long and Short Term Memory Network (ConvLSTM) for Extreme Precipitation Nowcasting Technique |
Chao TAN1,2+, Ji CHEN2#
1The University of Hong Kong Shenzhen Institute of Research and Innovation, China, 2The University of Hong Kong, Hong Kong SAR |
| AS20-A005 |
A Revised Gaussian Filter Technique for Stabilizing Explicit Atmospheric Model on the Latitude-longitude Grid |
Li DONG#+
Chinese Academy of Sciences, China |
| AS20-A008 |
Improved Climate Simulation by Using a Double-plume Convection Scheme in a Global Model |
Xiaohan LI1#+, Zhou BAIQUAN2
1PIESAT Information Technology Co., Ltd., China, China, 2Chinese Academy of Meteorological Sciences, China |
| AS20-A010 |
Global Cloud-resolving Simulations with NICAM on the Supercomputer Fugaku |
Chihiro KODAMA1#+, Hisashi YASHIRO2, Tamaki SUEMATSU3, Daisuke TAKASUKA1, Yuki TAKANO1, Ryusuke MASUNAGA1, Yohei YAMADA1, Shuhei MATSUGISHI4, Takashi ARAKAWA5, Masuo NAKANO1, Hiroaki MIURA4, Tatsuya SEIKI1, Akira NODA1, Masaki SATOH4, Tomoki OHNO6, Tomoe NASUNO1, Tomoki MIYAKAWA4
1Japan Agency for Marine-Earth Science and Technology, Japan, 2National Institute for Environmental Studies, Japan, 3RIKEN, Japan, 4The University of Tokyo, Japan, 5CliMTech, Japan, 6Meteorological Research Institute, Japan |
| AS20-A022 |
Application of Deep Learning with Physical Constraints in Precipitation Nowcasting |
Hongxu ZHU#+, Ji CHEN
The University of Hong Kong, Hong Kong SAR |
| AS20-A011 |
Impact of Ocean Layer Thickness in Storm-and-eddy-rich Global Coupled Simulations on the Climate State and ENSO Variability |
Dian PUTRASAHAN1#+, Dietmar DOMMENGET2, Daniel KLOCKE1, Jin-Song VON STORCH1
1Max Planck Institute for Meteorology, Germany, 2Monash University, Australia |
| AS20-A012 |
GPU Development of Km-scale AGCMs to Drive Earth Digital Twins |
Stanley POSEY#+
NVIDIA Corporation, United States |
| AS20-A013 |
A Neural Network-based Scale-adaptive Cloud-fraction Scheme for GCMs: Offline Evaluation Based on the ERA-Interim Reanalysis |
Guoxing CHEN1#+, Wei-Chyung WANG2
1Fudan University, China, 2University at Albany - State University of New York, United States |
| AS20-A014 |
High-resolution Weather and Climate Modelling at CCRS: Current Status and Future Priorities |
Hugh ZHANG1#+, Dale BARKER2, Aurel MOISE3, Joshua LEE3, Song CHEN3, Rajesh KUMAR3
1CCRS, Singapore, 2Centre for Climate Research Singapore (CCRS), Singapore, 3Centre for Climate Research Singapore, Singapore |
| AS20-A016 |
Mesoscale Convective Systems Simulated by a High-resolution Global Nonhydrostatic Model Over the United States and China |
Ying NA1#+, Qiang FU2, L. Ruby LEUNG3, Chihiro KODAMA4, Riyu LU5
1Beijing Municipal Climate Center, China, 2University of Washington, United States, 3Pacific Northwest National Laboratory, United States, 4Japan Agency for Marine-Earth Science and Technology, Japan, 5Chinese Academy of Sciences, China |
| AS20-A017 |
A Heterogeneous Coupling Library h3-Open-UTIL/MP |
Takashi ARAKAWA1#+, Shinji SUMIMOTO2, Hisashi YASHIRO3, Kengo NAKAJIMA2
1CliMTech, Japan, 2The University of Tokyo, Japan, 3National Institute for Environmental Studies, Japan |
| AS20-A018 |
An Assessment of the Simulation of East‐Asia Precipitation in the High‐resolution Community Earth System Model |
Mingkui LI#+, Guang YANG, Shaoqing ZHANG
Ocean University of China, China |
| AS20-A019 |
Evaluating the Relationship Between Tropical Cyclone Genesis Frequency and Environmental Conditions by Using a NICAM Large Ensemble Simulation |
Yohei YAMADA1#+, Masuo NAKANO1, Tomoki MIYAKAWA2, Chihiro KODAMA1, Akira YAMAZAKI1, Daisuke TAKASUKA2, Tomoe NASUNO1, Hisashi YASHIRO3, Masato SUGI4, Masaki SATOH2
1Japan Agency for Marine-Earth Science and Technology, Japan, 2The University of Tokyo, Japan, 3National Institute for Environmental Studies, Japan, 4Japan Meteorological Agency, Japan |
| AS20-A020 |
On-the-fly Data Streaming from Climate Simulations for Training the Data-driven Surrogated Models |
Hisashi YASHIRO1#+, Takashi ARAKAWA2, Kengo NAKAJIMA3
1National Institute for Environmental Studies, Japan, 2CliMTech, Japan, 3The University of Tokyo, Japan |
| AS20-A021 |
Progress and Challenges of Kilometer-scale Atmospheric Climate Simulations with NICAM |
Daisuke TAKASUKA1#+, Chihiro KODAMA2, Tamaki SUEMATSU3, Tomoki OHNO4, Yohei YAMADA2, Tatsuya SEIKI2, Hisashi YASHIRO5, Masuo NAKANO2, Hiroaki MIURA1, Akira NODA2, Tomoe NASUNO2, Tomoki MIYAKAWA1, Ryusuke MASUNAGA2
1The University of Tokyo, Japan, 2Japan Agency for Marine-Earth Science and Technology, Japan, 3RIKEN, Japan, 4Meteorological Research Institute, Japan, 5National Institute for Environmental Studies, Japan |
| AS21 Past and Future Irreversible and Abrupt Climate Changes: Hysteresis and Resilience |
| Abstract ID |
Abstract Title |
Authors |
| AS21-A001 |
Hysteresis of the El Niño-southern Oscillation Characteristics to CO2 Forcing Linked to the ITCZ |
Chao LIU1+, Soon-Il AN1#, Fei-Fei JIN2, Jongsoo SHIN3, Jong-Seong KUG3, Wenjun ZHANG4, Malte STUECKER5, Xinyi YUAN6, Aoyun XUE3, Xin GENG4, Soong-Ki KIM1
1Yonsei University, Korea, South, 2University of Hawaii, United States, 3Pohang University of Science and Technology, Korea, South, 4Nanjing University of Information Science & Technology, China, 5University of Hawaii at Manoa, United States, 6China Meteorological Administration, China |
| AS21-A002 |
Hysteresis and Irreversibility of Global Extreme Precipitation to Anthropogenic CO2 Emission |
Sanjit Kumar MONDAL1#+, Soon-Il AN1, Seung-Ki MIN2, Soong-Ki KIM1, Jongsoo SHIN2, Seungmok PAIK1, Nari IM1, Chao LIU1
1Yonsei University, Korea, South, 2Pohang University of Science and Technology, Korea, South |
| AS21-A003 |
Rate-dependent Hysteresis of Atlantic Meridional Overturning Circulation |
Soon-Il AN1#, Hyo-Jeong KIM2, Soong-Ki KIM1+
1Yonsei University, Korea, South, 2City University of Hong Kong, Hong Kong SAR |
| AS21-A004 |
Hysteresis of ENSO Teleconnection in CO2 Removal Experiment |
Su-Hyeon SHIN1#+, Soon-Il AN1, Jae-Heung PARK2, Jongsoo SHIN2, Chao LIU1
1Yonsei University, Korea, South, 2Pohang University of Science and Technology, Korea, South |
| AS21-A006 |
Roles of Two Hemispheres for Changes in the Global Mean Temperature Under the Zero Emission Commitment (CESM2) Scenario |
Seung-Hwon HYUN#+, Soon-Il AN, Ho-Jeong SHIN
Yonsei University, Korea, South |
| AS21-A005 |
Future Projection of Arctic Sea Ice Constrained by Observed Sea Ice |
Hyeonui CHOE+, Soon-Il AN#
Yonsei University, Korea, South |
| AS21-A007 |
Hysteretic Behavior of Global to Regional Monsoon Area Under CO2 Ramp-up and Ramp-down |
Seungmok PAIK1+, Soon-Il AN1#, Seung-Ki MIN2, Andrew KING3, Jongsoo SHIN2
1Yonsei University, Korea, South, 2Pohang University of Science and Technology, Korea, South, 3The University of Melbourne, Australia |
| AS21-A009 |
Asymmetrical Response of Summer Rainfall in East Asia to CO2 Forcing |
Sang-Wook YEH#+, Se-Yong SONG
Hanyang University, Korea, South |
| AS21-A008 |
Hiatus of Near-surface Wind Speed in March Over China |
Huishuang YUAN1+, Zhibo LI2, Youli CHANG1#
1Yunnan University, China, 2Peking University, China |
| AS21-A012 |
The Relationship Between the Mass Term of Atmospheric Angular Momentum and Water Vapor Mass |
Wirid BIRASTRI1,2#+, Tri Wahyu HADI1, Nining Sari NINGSIH1
1Bandung Institute of Technology, Indonesia, 2Institut Teknologi Sumatera, Indonesia |
| AS21-A010 |
Hemispherically Asymmetric Hadley-cell Response to CO2 Removal |
Seo-Yeon KIM1+, Seok-Woo SON1#, Yeong-Ju CHOI1, Paul William STATEN2, Kevin M GRISE3, Soon-Il AN4, Jong-Seong KUG5, Sang-Wook YEH6, Seung-Ki MIN5, Jongsoo SHIN5
1Seoul National University, Korea, South, 2Indiana University, United States, 3University of Virginia, United States, 4Yonsei University, Korea, South, 5Pohang University of Science and Technology, Korea, South, 6Hanyang University, Korea, South |
| AS21-A011 |
Hysteresis of Southern Ocean Temperature in a Carbon Dioxide Removal Scenario Through Warm Water Upwelling and Sea Ice-albedo Feedback |
Jongsoo SHIN1#+, Jong-Seong KUG1, Soon-Il AN2, Jae-Heung PARK1
1Pohang University of Science and Technology, Korea, South, 2Yonsei University, Korea, South |
| AS21-A013 |
Asymmetric Response of South Asian Summer Monsoon Rainfall in a Carbon Dioxide Removal Scenario |
Suqin ZHANG#+
Chinese Academy of Sciences, China |
| AS22 Understanding and Modeling Climate Impacts of Anthropogenic Land Use Change |
| Abstract ID |
Abstract Title |
Authors |
| AS22-A002 |
Combinatory Impact of Soil Texture and Land Use/cover Change on Hydroclimate Modeling Over Central Taiwan |
Chia-Jeng CHEN#+, Min-Hung CHI
National Chung Hsing University, Taiwan |
| AS22-A003 |
Does the Expansion of Urban Areas Aggravate Air Pollution in North China Plain (NCP)? |
Qian JIANG#+, Guohui LI
Chinese Academy of Sciences, China |
| AS22-A004 |
Impacts of Changes in Land Use and Land Cover Between 2001 and 2018 on Summertime O3 Formation in North China Plain and Surrounding Areas - A Case Study |
Jiaoyang YU1+, Weijian ZHOU2, Guohui LI2#, Qian JIANG2, Xuexi TIE2, Suixin LIU2, Xia LI2,3, Guohui LI2, Ruonan WANG2, Lang LIU2
1Institute of Earth Environment,Chinese Academy of Sciences, China, 2Chinese Academy of Sciences, China, 3University of Chinese Academy of Sciences, China |
| AS22-A005 |
Understanding How Solar Farms Modify Radiation Budget and Regional Climate Based on Satellite-observation Constrained Climate Modeling |
Chongxing FAN#+, Xianglei HUANG
University of Michigan, United States |
| AS22-A006 |
Effects of Irrigation on the Local and Regional Climate with a New Groundwater Scheme Using Couple Model Simulations |
Ren-Jie WU1#+, Min-Hui LO1, Yadu POKHREL2, Agnès DUCHARNE3
1National Taiwan University, Taiwan, 2Michigan State University, United States, 3Institut Pierre-Simon Laplace, France |
| AS22-A007 |
Investigating the Climate's Reaction to Varying Levels of Deforestation in the Maritime Continent |
Chun-Hung LI#+, Min-Hui LO
National Taiwan University, Taiwan |
| AS22-A008 |
Forestation Induced Greening in South China Favours Carbon Neutrality and Ozone Air Pollution Abatement |
Zehui LIU+, Lin ZHANG#
Peking University, China |
| AS22-A009 |
The Impact of Regional and Global Groundwater Pumping on Sea Level Changes |
Ren-Jie WU1+, Min-Hui LO1, Yuwen FAN2, Eun-Soon IM2#
1National Taiwan University, Taiwan, 2The Hong Kong University of Science and Technology, Hong Kong SAR |
| AS22-A010 |
Relationship of Land-use Changes with Wildfire Risks Under Global Warming Based on CMIP6 Multi-model Projections |
Yan HE+, Subin HA, Eun-Soon IM#
The Hong Kong University of Science and Technology, Hong Kong SAR |
| AS22-A011 |
Quantifying the Regional Climate Response to Groundwater-fed Irrigation in North China Plain Based on WRF Simulations |
Yuwen FAN1+, Eun-Soon IM1#, Min-Hui LO2
1The Hong Kong University of Science and Technology, Hong Kong SAR, 2National Taiwan University, Taiwan |
| AS22-A014 |
Quantifying the Contributions of Vegetation Restoration and Climate Change to Energy Budget in the Loess Plateau of China |
Linjing QIU#+
Xi'an Jiaotong University, China |
| AS23 Observations, Remote Sensing, and Modeling of Tropospheric Composition and Air Quality in Asia and the Transpacific Region |
| Abstract ID |
Abstract Title |
Authors |
| AS23-A009 |
Implementation of Modified Halogen Chemistry Over South Korea |
Kiyeon KIM1+, Chul Han SONG1#, Kyung Man HAN1, Greg YARWOOD2, Beardsley ROSS2, Bonyoung KOO3, Minchan KIM4
1Gwangju Institute of Science and Technology, Korea, South, 2Ramboll, United States, 3Bay Area Air Quality Management District, United States, 4Cheju National Univeristy, Korea, South |
| AS23-A017 |
The Deadly Toll of Heavy Air Pollution in Asia: An Estimate of Mortality Attributable to the Long-term PM2.5 Exposure Based on NASA MERRA-2 Reanalysis |
Hongbin YU1#+, Alexander YANG1, Qian TAN2, Chamara RAJAPAKSHE1, Mian CHIN1
1NASA Goddard Space Flight Center, United States, 2Bay Area Environmental Research Institute, United States |
| AS23-A001 |
Impacts of Geostationary Environment Monitoring Spectrometer Measurements on NOx Emission Estimates: Observation System Simulation Experiments with GEOS-Chem Adjoint Data Assimilation System |
Yi WANG1#+, Xiaodong JIANG2, Minghui TAO2
1China University of Geosciences, Wuhan, China, 2China University of Geosciences, China |
| AS23-A002 |
AOD Fusion Based on Pixel-level Uncertainty Using Geostationary Satellite Instruments: GEMS, AMI, and GOCI-II |
Minseok KIM1#+, Jhoon KIM1, Hyunkwang LIM2, Seoyoung LEE1, Yeseul CHO1
1Yonsei University, Korea, South, 2National Institute for Environmental Studies, Japan |
| AS23-A004 |
Top-down Nitrogen Oxide Emissions Based on TROPOMI Observations |
Yi-Chun CHEN#+, Charles C.-K. CHOU, Chian-Yi LIU, Szu-Yu CHI, Ming-Tung CHUANG
Academia Sinica, Taiwan |
| AS23-A003 |
New Top-down Spatially Distributed Daily Emissions Inventory for Black Carbon Driven by OMI and AERONET Observations |
Jian LIU1+, Jason COHEN2#, Steve YIM1
1Nanyang Technological University, Singapore, 2China University of Mining and Technology, China |
| AS23-A005 |
POMINO-GEMS: A Research Product for Tropospheric NO2 Columns from Geostationary Environment Monitoring Spectrometer |
Yuhang ZHANG1+, Jintai LIN1#, Jhoon KIM2, Hanlim LEE3, Junsung PARK3, Hyunkee HONG4, Van Roozendael MICHEL5, Francois HENDRICK5, Ting WANG6, Pucai WANG6, Qin HE7, Kai QIN7, Yongjoo CHOI8, Yugo KANAYA9, Jin XU6, Pinhua XIE6, Xin TIAN10, Sanbao ZHANG11, Shanshan WANG12, Robert SPURR13, Lulu CHEN1, Hao KONG1, Mengyao LIU14
1Peking University, China, 2Yonsei University, Korea, South, 3Pukyong National University, Korea, South, 4National Institute of Environmental Research, Korea, South, 5Royal Belgian Institute for Space Aeronomy, Belgium, 6Chinese Academy of Sciences, China, 7China University of Mining and Technology, China, 8Hankuk University of Foreign Studies, Korea, South, 9Japan Agency for Marine-Earth Science and Technology, Japan, 10Anhui University, China, 11Fudan University, China, 12University of Science and Technology of China, China, 13RT Solutions, United States, 14Royal Netherlands Meteorological Institute, Netherlands |
| AS23-A012 |
Hypothetical RGB Bands Generation of Geostationary Environment Monitoring Spectrometer Using Data-to-data Translation |
Han-Sol RYU1+, Jeong-Eun PARK1, Jaehoon JEONG2, Goo KIM2, Sungwook HONG1#
1Sejong University, Korea, South, 2National Institute of Environmental Research, Korea, South |
| AS23-A006 |
High-resolution Optical Depth for Coastal Areas—Near-real-time Production and Assimilation in a Global Aerosol Model |
Edward HYER1#+, Christopher CAMACHO1, Andrew LAMBERT2, Chengzhe LI3, Jun WANG3
1Naval Research Laboratory, United States, 2General Dynamics Information Technology, United States, 3The University of Iowa, United States |
| AS23-A010 |
Sub-grid Variability of Column NO2 at Industrial Point Sources in Korea Inferred from Airborne Hyperspectral Observations |
Jong-Uk PARK1#+, Sang-Woo KIM1, Jin-Soo PARK2, Hyunjae KIM2, Jin-soo CHOI2, Sangseo PARK3
1Seoul National University, Korea, South, 2National Institute of Environmental Research, Korea, South, 3Ulsan National Institute of Science and Technology, Korea, South |
| AS23-A011 |
Satellite Aerosol Retrieval Algorithm for Multi-angle Polarimetric Measurements Over East Asia |
Minghui TAO1#+, Liangfu CHEN2, Yi WANG3, Lan FENG1
1China University of Geosciences, China, 2Chinese Academy of Sciences, China, 3China University of Geosciences, Wuhan, China |
| AS23-A034 |
Extensive Characterization of Aerosol Optical Properties and Chemical Component Concentrations: Application of the GRASP/component Approach to Long-term AERONET Measurements |
Xindan ZHANG1#+, Lei LI1, Cheng CHEN2, Oleg DUBOVIK3, Huizheng CHE1, Yu ZHENG1
1Chinese Academy of Meteorological Sciences, China, 2UMR 8518 – Laboratoire d’Optique Atmosphérique, France, 3University of Lille, France |
| AS23-A013 |
Development of High-resolution Chemical Reanalysis System Over Northeast Asia and South Korea Based on the Korean Air Chemistry Modeling System (K_ACheMS RA) |
Dogyeong LEE+, Chul Han SONG#
Gwangju Institute of Science and Technology, Korea, South |
| AS23-A020 |
Total Column Water Vapor Retrieval Over Asia From Geostationary Environment Monitoring Spectrometer (GEMS) Visible Spectra |
Hyeji CHA1+, Jhoon KIM1#, Heesung CHONG2, Gonzalo GONZÁLEZ ABAD2, Dha Hyun AHN1, Sangseo PARK3, Ja-Ho KOO1, Won-Jin LEE4, Deok-Rae KIM4
1Yonsei University, Korea, South, 2Center for Astrophysics | Harvard & Smithsonian, United States, 3Ulsan National Institute of Science and Technology, Korea, South, 4National Institute of Environmental Research, Korea, South |
| AS23-A014 |
Observational Evidence of Aerosol Radiation Modifying Photochemical Ozone Profiles in the Lower Troposphere |
Bin ZHU1#+, Shuangshuang SHI1, Yan CAI2
1Nanjing University of Information Science & Technology, China, 2Nanjing University of Post & Telecommunications, China |
| AS23-A015 |
Characteristics of Spatiotemporal Distribution of OMI NO2 VCDs in Southeast Asia (2005-2019) |
Ja-Ho KOO#+, Nahyun LEE, Donghee LEE
Yonsei University, Korea, South |
| AS23-A064 |
Investigating Transport and Environmental Impacts of the Strongest Asian Dust Event Over the Past Decade in China |
Tianle ZHANG1+, Mei ZHENG1#, Xiaoguang SUN2, Huanhuan CHEN3, Yuntao WANG4, Xuehua FAN2, Yubing PAN5, Jiannong QUAN6, Junyi LIU1, Yinan WANG2, Daren LYU2,7, Shuangling CHEN3, Tong ZHU1, Fei CHAI3
1Peking University, China, 2Chinese Academy of Sciences, China, 3Ministry of Natural Resources, China, 4State Oceanic Administration, China, 5Institute of Urban Meteorology, China, 6Institute of Urban Meteorology, China, 7University of Chinese Academy of Sciences, China |
| AS23-A021 |
Near-real-time PM2.5 Prediction Over East Asia Using Geostationary Aerosol Monitors of GOCI-II and Machine Learning |
Jeewoo LEE#+, Jhoon KIM
Yonsei University, Korea, South |
| AS23-A022 |
Estimating Emissions from Crop Residue Open Burning in Central China Using Statistical Models Combined with Satellite Observations |
Rong LI#+
Hubei University, China |
| AS23-A023 |
Distribution and Trend of Surface Ozone Pollution in the South Korea |
Taegyung LEE1, Ja-Ho KOO1#, Junsu GIL2, Donghee LEE1+
1Yonsei University, Korea, South, 2Korea University, Korea, South |
| AS23-A037 |
Global Temperature Dependency of Satellite Formaldehyde (HCHO) Columns: Implications to Isoprene Emissions |
Xicheng LI1+, Lei ZHU1#, Isabelle DE SMEDT2, Wenfu SUN3, Lei SHU4, Dakang WANG5, Song LIU1, Yuyang CHEN1, Dongchuan PU1, Juan LI1, Shuai SUN1, Xiaoxing ZUO1, Weitao FU1, Xin YANG1, Tzung-May FU1
1Southern University of Science and Technology, China, 2Belgian Institute for Space Aeronomy, Federal Space Pole, Belgium, 3Royal Belgian Institute for Space Aeronomy, Belgium, 4Fujian Normal University, China, 5Guangzhou University, China |
| AS23-A024 |
The COVID-19 Lockdowns Improved Air Quality in Asia as Revealed by Observations and Model Simulations |
Claire YU1#+, Mian CHIN2, Huisheng BIAN3, Qian TAN4, Peter COLARCO5, Hongbin YU2
1Richard Montgomery High School, United States, 2NASA Goddard Space Flight Center, United States, 3University of Maryland, Baltimore County, United States, 4Bay Area Environmental Research Institute, United States, 5National Aeronautics and Space Administration, United States |
| AS23-A025 |
New Global Land Aerosol Fine-mode Fraction Dataset (2001–2020) Retrieved from Modis |
Xing YAN1#+, Zhanqing LI2,1
1Beijing Normal University, China, 2University of Maryland, United States |
| AS23-A026 |
Tracking Air Pollution in China from Space Using Artificial Intelligence |
Jing WEI1#, Zhanqing LI1,2+
1University of Maryland, United States, 2Beijing Normal University, China |
| AS23-A030 |
Interpretation of Daytime and Nighttime Difference in AOD Over China Based on CALIOP Observations and GEOS-Chem Simulation |
Xiaodong JIANG1#+, Yi WANG2, Minghui TAO1, Lu GUI1
1China University of Geosciences, China, 2China University of Geosciences, Wuhan, China |
| AS23-A028 |
Ozone in the Lower Boundary Layer and its Influence on Surface Ozone: Insights from 3-year Tower-based Observations in South China and Regional Air Quality Modeling |
Guowen HE#+, Xiao LU, Shaojia FAN
Sun Yat-sen University, China |
| AS23-A032 |
Changes in Aerosol Loading Before, During and After the COVID-19 Pandemic Outbreak in China: Effects of Anthropogenic and Natural Aerosol |
Yuanxin LIANG+, Huizheng CHE#, Ke GUI
Chinese Academy of Meteorological Sciences, China |
| AS23-A048 |
Top-down Model-free Estimation of Emissions of BC, CH4, CO, and NOx in Tandem: Increased Emissions and Radiative Forcing in Rural Areas Overwhelm Reductions in Emissions and Radiative Forcing Variability in Urban Areas |
Jason COHEN#+
China University of Mining and Technology, China |
| AS23-A035 |
Seasonal Cycles and Long-term Trends of Arctic Tropospheric Aerosols Based on Calipso Lidar Observations |
Wenrui YAO+, Ke GUI, Yu ZHENG#, Lei LI, Yaqiang WANG, Huizheng CHE, Xiaoye ZHANG
Chinese Academy of Meteorological Sciences, China |
| AS23-A068 |
Three Decades of Atmospheric Aerosols Column Measurements from AERONET |
Pawan GUPTA1#+, Elena LIND1, Brent HOLBEN1, Thomas ECK1, David GILES2,1, Alexander SMIRNOV3,1, Joel SCHAFER2, Aliaksandr SINYUK1, Ilya SLUTSKER3,1, Mikhail SOROKIN1, Jason KRAFT1, Arsenio MENENDEZ2, Zane MCBRIDGE2, Hal MARING4, Sheng-Hsiang WANG5, Huizheng CHE6, Neng-Huei LIN5, Jhoon KIM7, Itaru SANO8
1NASA Goddard Space Flight Center, United States, 2Science Systems and Applications, Inc., United States, 3Sigma Space Corporation, United States, 4NASA Headquarters, United States, 5National Central University, Taiwan, 6Chinese Academy of Meteorological Sciences, China, 7Yonsei University, Korea, South, 8Kindai University, Japan |
| AS23-A036 |
The Significant Contribution of Small-sized and Spherical Aerosol Particles to the Decreasing Trend in Total Aerosol Optical Depth Over Land from 2003 to 2018 |
Huizheng CHE#+, Ke GUI
Chinese Academy of Meteorological Sciences, China |
| AS23-A063 |
WMO Vegetation Fire and Smoke Pollution Warning Advisory and Assessment System (VFSP-WAS) - Supporting Sustainability Efforts in Southeast Asia |
Boon Ning CHEW1#+, Alexander BAKLANOV 2, Sara BASART2, Mikhail SOFIEV3, Bambang H. SAHARJO4, Goldammer JOHANN GEORG5
1Centre for Climate Research Singapore, Singapore, 2World Meteorological Organization, Denmark, 3Finnish Meteorological Institute, Finland, 4Regional Fire Management Resource Center - South East Asia, Indonesia, 5Global Fire Monitoring Center, Germany |
| AS23-A038 |
A Spatial Interpretable Deep Learning Model for Satellite-based O3 Estimation in China |
Nana LUO1#+, Jiawei ZHANG1, Mingyi DU1, Wenji ZHAO2, Xing YAN3
1Beijing University of Civil Engineering and Architecture, China, 2Capital Normal University, China, 3Beijing Normal University, China |
| AS23-A039 |
The Exploration of 2015-2019 Surface Background Ozone Over China: A Model Study by GEOS-Chem High Performance (GCHP) |
Xingpei YE1#+, Lin ZHANG1, Xiaolin WANG1, Danyang LI1, Jiayu XU1, Ni LU1, Xiao LU2
1Peking University, China, 2Sun Yat-sen University, China |
| AS23-A042 |
Dust Emission Changes in Northern China from 2016-2029 Under SSP2-4.5 Scenario |
Jianqi ZHAO+, Xiaoyan MA#, Rong TIAN
Nanjing University of Information Science & Technology, China |
| AS23-A041 |
Aerosol Retrieval from MERSI Onboard Chinese Fengyun-3: Performance Over Dark Target and Preliminary Test Over Bright Surface |
Leiku YANG#+, Xin PEI, Weiqian JI, Xinyao TIAN, Huan LIU
Henan Polytechnic University, China |
| AS23-A045 |
Towards Continuous Cargo Ship-based Observations of Greenhouse Gases and Air Pollutants by a Novel Semi-automatic FTIR - UV Spectrometer |
Astrid MUELLER1#+, Hiroshi TANIMOTO1, Takafumi SUGITA1, Prabir K. PATRA2,3, Matthias FREY1, Ralph KLEINSCHEK4, André BUTZ4, Isamu MORINO1, Vincent ENDERS4, Karolin VOSS4, Shin-ichiro NAKAOKA1, T. MACHIDA1
1National Institute for Environmental Studies, Japan, 2Japan Agency for Marine-Earth Science and Technology, Japan, 3Tohoku University, Japan, 4Heidelberg University, Germany |
| AS23-A046 |
Synergistic Use of Atmospheric Dispersion Modelling and Satellite Products to Study Smoke Haze Emissions in Southeast Asia |
Efthymia PAVLIDOU1#+, Chee-Kiat TEO2, Boon Ning CHEW2, Zhong Yi CHIA2, Phoebe JULIAN1,3, Peng YUAN SNG4
1Meteorological Service Singapore, Singapore, 2Centre for Climate Research Singapore, Singapore, 3Nanyang Technological University, Singapore, 4National University of Singapore, Singapore |
| AS23-A047 |
Emissions of Nitrous Acid (HONO) and Nitric Oxide (NO) from Soils and its Impact O3 Pollution |
Tong SHA#+
Shaanxi University of Science and Technology, China |
| AS23-A062 |
Top-down Derivation of Biomass Burning Particulate Matter Emissions from Different Biomes Using Himawari Fire Radiative Power Observations in ASEAN |
Phoebe JULIAN1,2#+, Efthymia PAVLIDOU1, Boon Ning CHEW3, Chee-Kiat TEO3, Zhong Yi CHIA3, Hannah NGUYEN4, Martin WOOSTER4
1Meteorological Service Singapore, Singapore, 2Nanyang Technological University, Singapore, 3Centre for Climate Research Singapore, Singapore, 4King's College London, United Kingdom |
| AS23-A049 |
The Diurnal Variation of Pollutant Distributions Over Asia Using Observations from the Geostationary Environment Monitoring Spectrometer (GEMS) |
David EDWARDS1#+, Sara MARTINEZ-ALONSO1, Duseong JO1, Ivan ORTEGA1, Louisa EMMONS1, Helen WORDEN1, Jhoon KIM2
1National Center for Atmospheric Research, United States, 2Yonsei University, Korea, South |
| AS23-A058 |
Greenhouse Gases Monitoring Over the East Asia by Satellite-based Observation |
Byung-il LEE1#+, Junhyung HEO2, Myoung-Hee LEE2, Yoonjae KIM3, Young-Suk OH3, Sangwon JOO3
1National Meteorological Satellite Center / Korea Meteorological Administration, Korea, South, 2Korea Meteorological Administration, Korea, South, 3National Institute of Meteorological Sciences, Korea, South |
| AS23-A052 |
Optimal Estimation Retrieval of Aerosol Optical Properties from the GEMS Onboard GK-2B Satellite |
Yeseul CHO1#+, Sujung GO2, Mijin KIM2, Hyunkee HONG3, Dongwon LEE3, Omar TORRES2
1Yonsei University, Korea, South, 2NASA Goddard Space Flight Center, United States, 3National Institute of Environmental Research, Korea, South |
| AS23-A054 |
GEMS - Two Years of Operation |
Jhoon KIM1#+, Dongwon LEE2, Myoung Hwan AHN3, Jae KIM4, Rokjin J. PARK5, Hanlim LEE6, Chul Han SONG7, Yong-Sang CHOI3, Kwon Ho LEE8, Jung-Moon YOO3, Seon Ki PARK3, Kwang-Mog LEE9, Chang-Keun SONG10, Sang-Woo KIM5, Si-Wan KIM1, Jongmin YOON2, Won-Jin LEE2, Hyunkee HONG2, Chang-Seok LEE2, Won-Jun CHOI2, Yuha KIM2, Kyung-Jung MOON2, Dai Ho KO11, Seung-Hoon LEE11, Yeseul CHO1, Sangseo PARK10, Heesung CHONG12, Sujung GO13, Hana LEE1, Mina KANG3, Mijin EO3, Junsung PARK6, Kanghyun BAEK14,4, Gyuyeon KIM3, Xiong LIU15, Kelly CHANCE12, Pepijn VEEFKIND16, Jassim AL-SAADI13, Ben VEIHEMLANN17, GEMS SCIENCE TEAM18
1Yonsei University, Korea, South, 2National Institute of Environmental Research, Korea, South, 3Ewha Womans University, Korea, South, 4Pusan National University, Korea, South, 5Seoul National University, Korea, South, 6Pukyong National University, Korea, South, 7Gwangju Institute of Science and Technology, Korea, South, 8Gangneung-Wonju National University, Korea, South, 9Kyungpook National University, Korea, South, 10Ulsan National Institute of Science and Technology, Korea, South, 11Korea Aerospace Research Institute, Korea, South, 12Center for Astrophysics | Harvard & Smithsonian, United States, 13NASA Goddard Space Flight Center, United States, 14National Center for Atmospheric Research, United States, 15Harvard University, United States, 16Royal Netherlands Meteorological Institute, Netherlands, 17European Space Research and Technology Centre, Netherlands, 18GEMS.Science.Team, Korea, South |
| AS23-A055 |
Improved Inversion of Aerosol Components in the Atmospheric Column from Remote Sensing Data |
Ying ZHANG#+
Chinese Academy of Sciences, China |
| AS23-A056 |
Evaluation of Chemical Mechanisms in WRF-Chem for Aerosol Formation and Chemical Evolution Over the Tropics |
Santo V. SALINAS#+, Li TAN, Fernando SANTOS, Soo Chin LIEW
National University of Singapore, Singapore |
| AS23-A057 |
Air Pollution Monitoring in Singapore Using Ground-based Observations and Satellite Data |
Peng YUAN SNG1, Efthymia PAVLIDOU2#+, Santo V. SALINAS1, Fernando SANTOS1, Boon Ning CHEW3
1National University of Singapore, Singapore, 2Meteorological Service Singapore, Singapore, 3Centre for Climate Research Singapore, Singapore |
| AS23-A059 |
Pandora Asia Network (PAN) of Status and Future Plan |
Soi AHN1#+, Limseok CHANG2, Donghee KIM2
1National Institute of Environmental Research(NIER), Korea, South, 2National Institute of Environmental Research, Korea, South |
| AS23-A060 |
Evaluating Long Range Transport of Aerosols in Reanalysis and Climate Model Simulations: A Synergistic Approach Using Remote Sensing Observations and Modeling |
V. VINOJ1#+, Sanatan BINISIA1, Indra Sekar SEN2
1Indian Institute of Technology Bhubaneswar, India, 2Indian Institute of Technology Kanpur, India |
| AS23-A061 |
Improved Ensemble Kalman Filter Aerosol Data Assimilation by Prognostic Variable Perturbation and Multiphysics |
Myong-In LEE#+, Seunghee LEE
Ulsan National Institute of Science and Technology, Korea, South |
| AS23-A065 |
GEMS Validation Campaign-GMAP 2021 |
Limseok CHANG1#+, Hyunkee HONG1, Donghee KIM1, Soi AHN2
1National Institute of Environmental Research, Korea, South, 2National Institute of Environmental Research(NIER), Korea, South |
| AS23-A066 |
An Update on Plans for the Airborne and Satellite Investigation of Asian Air Quality (ASIA-AQ) |
James CRAWFORD1#+, Barry LEFER2, Limseok CHANG3, Gangwoong LEE4, Jhoon KIM5, Rokjin J. PARK6, Chang-Keun SONG7, Laura JUDD8,1, Katherine TRAVIS8,1
1NASA Langley Research Center, United States, 2National Aeronautics and Space Administration, United States, 3National Institute of Environmental Research, Korea, South, 4Hankuk University of Foreign Studies, Korea, South, 5Yonsei University, Korea, South, 6Seoul National University, Korea, South, 7Ulsan National Institute of Science and Technology, Korea, South, 8National Center for Atmospheric Research, United States |
| AS23-A071 |
Remote Sensing of Carbonaceous Aerosols from Himawari-8 Satellite Using Critical Reflectance Algorithm |
Ying LI1,2#+, Fangwen BAO1, Jinhui GAO3
1Southern University of Science and Technology, China, 2Southern Marine Science and Engineering Guangdong Laboratory, China, 3Chengdu University of Information Technology, China |
| AS23-A070 |
Scale Height of NO2 and its Associations with Meteorological Conditions Using GEMS Measurements |
Changqing LIN#+
The Hong Kong University of Science and Technology, Hong Kong SAR |
| AS23-A072 |
Estimating the Columnar Concentrations of Black Carbon Aerosols in China Using MODIS Products |
Fangwen BAO1+, Ying LI1,2#
1Southern University of Science and Technology, China, 2Southern Marine Science and Engineering Guangdong Laboratory, China |
| AS23-A073 |
Characterization of the PBL Structure and PM2.5 in Taiwan: T-POMDA Field Campaign and Modeling |
Fang-Yi CHENG#+, Sheng-Hsiang WANG, Shu-Chih YANG, Yi-Cheng LIN, Chih-Kuan WANG
National Central University, Taiwan |
| AS23-A074 |
Impact of Aerosol Radiative Effects on Surface Ozone in Megacity Delhi, India |
Lakhima CHUTIA, Jun WANG#+
The University of Iowa, United States |
| AS24 Machine Learning applications in the field of atmospheric pollution |
| Abstract ID |
Abstract Title |
Authors |
| AS24-A001 |
Ensemble Surface Ozone Forecast Using Deep Learning and Implications for Surface Ozone Predictability |
Aoxing ZHANG1#+, Tzung-May FU1, Xu FENG2, Jianfeng GUO3, Chanfang LIU3, Jiongkai CHEN1, Jiajia MO1, Xiao ZHANG4, Xiaolin WANG5, Wenlu WU1, Yue HOU1, Honglong YANG6, Chao LU6
1Southern University of Science and Technology, China, 2Harvard University, United States, 3Shenzhen Ecology and Environment Monitoring Centre of Guangdong Province, China, 4Tsinghua University, China, 5Peking University, China, 6Shenzhen National Climate Observatory, China |
| AS24-A002 |
Improving the Accuracy of O3 Prediction of CMAQ with a Random Forest Model in the Yangtze River Delta Region, China |
Kaili XIONG#+, Xiaodong XIE, Jianjiong MAO, Lin HUANG, Jingyi LI, Jianlin HU
Nanjing University of Information Science & Technology, China |
| AS24-A003 |
Elucidate the Impacts of Meteorology and Emission Changes on Concentrations of Major Air Pollutants in Major Cities in the Yangtze River Delta Region Using a Machine Learning De-weather Method |
Fu WENXING+, Jianlin HU#
Nanjing University of Information Science & Technology, China |
| AS24-A017 |
Global Hourly and Daily PM2.5 Estimations: A Data Fusion Approach |
Pawan GUPTA1#+, Alqamah SAYEED2, Robert LEVY1, Sundar CHRISTOPHER3
1NASA Goddard Space Flight Center, United States, 2Universities Space Research Association, United States, 3The University of Alabama in Huntsville, United States |
| AS24-A004 |
Clustering Analysis of 24-hour Indoor Air Quality According to Facility Types in South Korea |
Sun-Kyong HUR#+, KyongTae KIM, Ju-Won LEE, Soo Joeng JOEN, Boo-Hun CHOI
Kweather, Korea, South |
| AS24-A005 |
Prediction of PM2.5 Concentration in 24 Hours Based on Hybrid Depth Neural Network |
Mengfan TENG#+, Siwei LI
Wuhan University, China |
| AS24-A008 |
Promoting the Estimation of Surface Ozone Concentration by Combining Machine Learning and Photochemistry |
Ge SONG+, Siwei LI#
Wuhan University, China |
| AS24-A006 |
The Impact of Air Pollution Control on Inter-provincial Trade-associated Environmental Inequality |
Jiaxin DONG+, Siwei LI#
Wuhan University, China |
| AS24-A007 |
Deep Neural Network with Improved Features Suitable for Adjacent Sites is Introduced to Predict Future PM2.5 Concentration |
Siwei LI#+, Mengfan TENG
Wuhan University, China |
| AS24-A009 |
Quantify the Responses of Nitrogen and Sulphur Deposition on NH3 Control by Machine Learning |
Zhaoxin DONG#+, Jia XING, Shuxiao WANG, Dian DING
Tsinghua University, China |
| AS24-A013 |
How Important the Wetlands are in Curbing the PM2.5 Level; Simulation Results from Indian Cities |
Prasenjit ACHARYA1#+, Bijoy Krishna GAYEN1, Dipanwita DUTTA1, S. SREEKESH2, U.C. KULSHRESTHA2, Nachiketa ACHARYA3,4
1Vidyasagar University, India, 2Jawaharlal Nehru University, India, 3University of Colorado Boulder, United States, 4NOAA Physical Sciences Laboratory, United States |
| AS24-A010 |
Estimating Carbon Dioxide Emissions on Roads Based on Deep Learning |
Myeong-Gyun KIM#+, Hyo-Jong SONG
Myongji University, Korea, South |
| AS24-A011 |
Particulate Matter Prediction and Shapley Value Interpretation Through a Deep Learning Model |
Youngchae KWON#+
Myongji University, Korea, South |
| AS24-A012 |
Development of PM2.5 and PM10 Prediction Models Using Artificial Intelligence, CMAQ, and Meteorology |
Seong il LEE#+, Hyo-Jong SONG
Myongji University, Korea, South |
| AS24-A015 |
Predicting PM2.5 Levels in Delhi Using Long Short-term Memory |
Sanchit BEDI#+, N.M. Anoop KRISHNAN, Sri KOTA, Arpit KATIYAR
Indian Institute of Technology Delhi, India |
| AS24-A016 |
Improving Air Quality Forecasting Using a Physics-based Machine Learning Approach |
Sanchit BEDI#+, N.M. Anoop KRISHNAN, Sri KOTA
Indian Institute of Technology Delhi, India |
| AS24-A018 |
Development of a Multi-scale Modeling Framework for Urban High-resolution NO2 Pollution Mapping |
Huan LIU#+
Tsinghua University, China |
| AS25 Air Pollution-Weather-Climate Interactions |
| Abstract ID |
Abstract Title |
Authors |
| AS25-A001 |
Impact of Weather Conditions on PM2.5 Variations in Taiwan During the Winter Season 2018-2021 |
Hsiao-Chen CHIEN+, Fang-Yi CHENG#
National Central University, Taiwan |
| AS25-A003 |
Fast Response of East Asian Precipitation to Local and Remote Aerosol Emission Reductions During COVID-19 |
Weiyi WANG1+, Xiaohong LIU2#, Chenglai WU3, Guangxing LIN3, Yong WANG4, Zheng LU2, Xi ZHAO2, Linyi WEI4
1Institute of Atmospheric Physics, Chinese Academy of Sciences, China, 2Texas A&M University, United States, 3Chinese Academy of Sciences, China, 4Tsinghua University, China |
| AS25-A004 |
Climate Impacts of Aerosol Reductions in China Due to Clean Air Actions and COVID-19 |
Yang YANG1#+, Jiyuan GAO2, Lili REN2, Chao LIU2, Hailong WANG3, Hong LIAO2
1Nanjing University of Information Science and Technology, China, 2Nanjing University of Information Science & Technology, China, 3Pacific Northwest National Laboratory, United States |
| AS25-A005 |
Aerosol Impacts on Local Scale Convective Precipitation |
Chuanfeng ZHAO1#+, Yue SUN2
1Peking University, China, 2Beijing Normal University, China |
| AS25-A012 |
Global Trends and Drivers of Biogenic Volatile Organic Compound Emissions Over the Last 2 Decades |
Hao WANG1+, Xiaohong LIU2#, Chenglai WU1, Guangxing LIN1
1Chinese Academy of Sciences, China, 2Texas A&M University, United States |
| AS25-A007 |
Effects of Different Types of Aerosols on Deep Convective Clouds and Anvil Cirrus |
Jinming ZHANG1+, Bin ZHAO2, Xiaohong LIU3#
1Chinese Academy of Sciences, China, 2Tsinghua University, China, 3Texas A&M University, United States |
| AS25-A009 |
Decreasing Dust Over the Middle East Partly Caused by Irrigation Expansion |
Yong WANG1#, Wenwen XIA1+, Bin WANG2
1Tsinghua University, China, 2Chinese Academy of Sciences, China |
| AS25-A010 |
Evaluation and Improvement of Simulated Absorption of Brown Carbon in Eastern China |
Lulu XU1#+, Guangxing LIN1, Xiaohong LIU2
1Chinese Academy of Sciences, China, 2Texas A&M University, United States |
| AS25-A013 |
Which Aerosol Type Dominate the Impact of Aerosols on Ozone via Changing Photolysis Rates? |
Jinhui GAO#+
Chengdu University of Information Technology, China |
| AS25-A020 |
Attribution of the Aerosol Simulation Biases Over China in the AerChemMIP Models |
Tianyi FAN1#+, Xiaohong LIU2, Chenglai WU3, Yi GAO3, Chuanfeng ZHAO4, Xin YANG1, Keying LI1
1Beijing Normal University, China, 2Texas A&M University, United States, 3Chinese Academy of Sciences, China, 4Peking University, China |
| AS25-A016 |
More Frequent Strong Surface Solar Radiation Conducive to Persistent Ozone Pollution in a Warming Climate |
Wenbin KOU#+, Yang GAO, Shaoqing ZHANG
Ocean University of China, China |
| AS25-A014 |
Co-benefits of China’s ‘Dual-Carbon’ Policies on Ozone Pollution Mitigation in the Guangdong-Hong Kong-Macao Greater Bay Area: A Multi-model Simulation Study |
Danyang LI#+, Lin ZHANG, Xiaorui LIU, Chaoyi GUO, Kai WU, Hancheng DAI
Peking University, China |
| AS25-A015 |
The Effect of Aerosols on Surface Ozone Through Meteorology Feedbacks Over China |
Yawei QU#+
Jinling Institute of Technology, China |
| AS25-A017 |
The Effect of Compound Factors of Meteorology and Emissions on Ozone Pollution |
Yang GAO1#+, Mingchen MA1, Feifan YAN1, Wenbin KOU1, Junxi ZHANG2
1Ocean University of China, China, 2Zhejiang University, China |
| AS25-A019 |
Spatiotemporal Variation of the Burned Area and its Relationship with Climatic Factors in Central Kazakhstan |
Yongfang XU1#+, Zhaohui LIN2, Chenglai WU2
1National Meteorological Information Centre, China Meteorological Administration, China, 2Chinese Academy of Sciences, China |
| AS25-A021 |
Seasonal and Diurnal Variations of Carbon Dioxide and Energy Fluxes Over Three Land Cover Types of Nepal |
Bharat JOSHI1#+, Yaoming MA2
1Kathmandu Centre for Research Education, CAS-TU, Nepal, 2Chinese Academy of Sciences, China |
| AS25-A022 |
A Study on the Spatial Difference of PM2.5 Concentration in Similar Synoptic Fields |
DaEun CHAE1+, Soon-Hwan LEE1#, EunJi KIM2
1Pusan National University, Korea, South, 2Pusan University, Korea, South |
| AS25-A023 |
Anthropogenic Influences on Trends of Spring Rainfall Over East Asia: Synergic Effects of Greenhouse Warming and Aerosols on Decreasing Trends of Rainfall in Low-latitude East Asia |
Young-Hee RYU1#+, Seung-Ki MIN2
1Yonsei University, Korea, South, 2Pohang University of Science and Technology, Korea, South |
| AS25-A028 |
Subseasonal Reversal of Haze Pollution Over the North China Plain |
Lian XUE#+, Sijia LOU, Xin HUANG, Aijun DING
Nanjing University, China |
| AS25-A027 |
Environmental Impacts of Haze Pollution and Urbanization and Their Interactions Over the Beijing-Tianjin-Hebei City Cluster |
Zilin WANG#+, Xin HUANG, Aijun DING
Nanjing University, China |
| AS25-A029 |
The Global Environmental Measurement and Monitoring Initiative: Driving Global to Local Solutions |
Mark SHIMAMOTO1#+, David LANG2, Daniel KLINGENBERG2, Janice LACHANCE1
1American Geophysical Union, United States, 2Optica, United States |
| AS26 Tropical Polar Teleconnections |
| Abstract ID |
Abstract Title |
Authors |
| AS26-A001 |
The Influence of Pacific‑north American Teleconnection on the North Pacific SST Anomalies in Wintertime Under the Global Warming |
Zheng CHEN#+
Ocean University of China, China |
| AS26-A003 |
Influence of Tropical Atlantic Meridional Dipole of Sea Surface Temperature Anomalies on Antarctic Autumn Sea Ice |
Xuya REN1+, Li ZHANG1#, Wenju CAI2,3, Xichen LI4, Chuan-Yang WANG1, Yishuai JIN1, Lixin WU1
1Ocean University of China, China, 2Ocean University of China and Qingdao National Laboratory for Marine Science and Technology, China, 3Commonwealth Scientific and Industrial Research Organisation, Australia, 4Chinese Academy of Sciences, China |
| AS26-A004 |
A Distinct Impact of Multi-year La Niña on Antarctic Sea Ice Concentration |
Jin-Yi YU#+, Tingting ZHU
University of California, Irvine, United States |
| AS26-A005 |
Climatic Effects of the Indian Ocean Tripole on the Western United States in Boreal Summer |
Yazhou ZHANG#+
Ocean University of China, China |
| AS26-A006 |
Interdecadal Changes of Dominant Modes of Antarctic Sea Ice Variability in the Austral Warm Season and Associated Sea-air-ice Interactions |
Qigang WU#+
Fudan University, China |
| AS26-A007 |
The Mechanism Linking the Variability of the Antarctic Sea Ice Extent to Indian Summer Monsoon Rainfall |
Sheeba Nettukandy CHENOLI1#+, Azizan Abu SAMAH1, Seong-Joong KIM2,3, Nuncio MURUKESH4,5
1University of Malaya, Malaysia, 2Korea Polar Research Institute, Korea, South, 3University of Science and Technology, Korea, South, 4National Centre for Polar and Ocean Research, India, 5Ministry of Earth Sciences, Government of India, India |
| AS26-A010 |
North American Extreme Winter Weather and the Polar Vortex |
Muyin WANG#+
University of Washington, United States |
| AS26-A009 |
The Delayed Impact of ENSO on Generation of the Amundsen Sea Low (ASL) Anomaly |
Hyunju LEE#+, Emilia Kyung JIN
Korea Polar Research Institute, Korea, South |
| AS27 From Weather Predictability to Controllability |
| Abstract ID |
Abstract Title |
Authors |
| AS27-A003 |
Why Did Weather Modification Research in Japan and the United States Rapidly Decline in 1971? |
Mirai ABE#+, Hironori FUDEYASU, Manami SASAOKA
Yokohama National University, Japan |
| AS27-A001 |
A New Interpretation of Ensemble Sensitivity and its Potential Applications in Weather Controllability |
Le DUC#+, Yohei SAWADA
The University of Tokyo, Japan |
| AS27-A006 |
Impacts of Decrease in Sea Surface Temperature Through the Released Deep Sea Water on Typhoon Intensity |
Hironori FUDEYASU1#+, Takafumi HOSOGI1, Yasutomo KIYOHARA1, Hiroaki YOSHIOKA1, Kosuke ITO2, Koji INOUE3, Katsumi TAKAYAMA4, Kazuhiro TAKEUCHI4
1Yokohama National University, Japan, 2Kyoto University, Japan, 3NPO The Society of Ocean Romantics, Japan, 4IDEA Consultants, Inc., Japan |
| AS27-A002 |
Impacts of Drag Coefficient on Typhoon Intensity Using the Numerical Simulations |
Hiroaki YOSHIOKA1#+, Hironori FUDEYASU1, Ryuji YOSHIDA1, Junshi ITO2, Takeshi HORINOUCHI3
1Yokohama National University, Japan, 2Tohoku University, Japan, 3Hokkaido University, Japan |
| AS27-A004 |
Quantifying Weather Controllability and Mitigatable Flood Damage Based on Ensemble Weather Forecast |
Shunji KOTSUKI#+
Chiba University, Japan |
| AS27-A005 |
Applying ESV to Identify the Sensitivity of Heavy Rainfall Prediction |
Peng-Xiang LAI1#+, Shu-Chih YANG1, Kevin LUPO2, Ryan TORN2
1National Central University, Taiwan, 2University at Albany, State University of New York, United States |
| AS29 The Physical Processes Over Complex Topography: the Interactions Among Meteorology, Boundary Layer Turbulence, Clouds, Tracer Transport, and Chemistry |
| Abstract ID |
Abstract Title |
Authors |
| AS29-A001 |
Impacts of Boundary-layer Structure and Turbulence on the Variations of PM2.5 During Fog–haze Episodes |
Tingting JU1+, Bingui WU2#
1Dalian Maritime University, China, 2Tianjin Institute of Meteorological Science, China |
| AS29-A002 |
Effects of the Atmospheric Turbulence on the Vertical Transport of Dust Aerosols During Strong Sandstorm Period |
Lu ZHANG#+, Hongsheng ZHANG
Peking University, China |
| AS29-A005 |
A Study of Extreme Precipitation Events in Taiwan During the Autumn of 2022 Employing a Machine Learning-based Weather Typing Method |
Li-Huan HSU#+, Kuan-Ling LIN, Chou-Chun CHIANG, Jung-Lien CHU, Yi-Chao WU, An-Hsiang WANG, Shao-Chin HUANG, Yu-Chun CHEN, Yi-Chiang YU
National Science and Technology Center for Disaster Reduction, Taiwan |
| AS29-A010 |
Observing Heavily-precipitating Stratocumulus Over Complex Topography: The Yilan Experiment of Severe Rainfall (YESR) |
Wei-Ting CHEN1, Shih-Hao SU2, Ching-Hwang LIU2, Hung-Chi KUO1#+
1National Taiwan University, Taiwan, 2Chinese Culture University, Taiwan |
| AS29-A003 |
A Physical Storyline for the Response of Orographically Locked Diurnal Convection in a Warming Scenario |
Yu-Hung CHANG#+, Wei-Ting CHEN, Chien-Ming WU
National Taiwan University, Taiwan |
| AS29-A004 |
Significant Impacts of Atmospheric Boundary Layer Dynamics and Photochemistry on Fine Particulate Pollution Revealed by Intensive Vertical Observations |
Min ZHANG#+, Pengfei TIAN, Lei ZHANG, Jiening LIANG, Jiayun LI
Lanzhou University, China |
| AS29-A006 |
Response of Surface Ozone to Atmospheric Aerosol Absorption is More Sensitive Than to Scattering |
Xin SONG#+, Pengfei TIAN, Lei ZHANG, Jiening LIANG
Lanzhou University, China |
| AS29-A007 |
Machine Learning Detection of Fog/Low Cloud Over Eastern Taiwan Mountains from Himawari-8 Satellite True-color Images |
Peng-Jen CHEN+, Wei-Ting CHEN#, Chien-Ming WU, Shih-Wen TSOU
National Taiwan University, Taiwan |
| AS29-A008 |
Study on the Movable Rain Belt in Lanyang Plain Under the Strong Northeast Monsoon |
Jou-Ping HOU#+, Chih-Yi CHEN
National Defense University, Taiwan |
| AS29-A009 |
Deep-inflow Mixing Features of Diurnal Convection Under VVM Simulations with Idealized Terrain |
Wei-Ting CHEN#, Yu-Hsiu WANG+
National Taiwan University, Taiwan |
| AS29-A017 |
Investigation of Yi-Lan Low Levels Circulation and Precipitation by WISSDOM Retrieval and Ensemble Simulations |
Kai-I LIN#+, Kaoshen CHUNG, Yu-Chieng LIOU, Wei-Yu CHANG
National Central University, Taiwan |
| AS29-A011 |
The Long-term Spatial Variation of Complex Terrain Rainfall Features in Northeastern Taiwan Under the East Asian Winter Monsoon |
Shih-Hao SU#+, Wen-Wei TSENG, Chin-Hsiang WU
Chinese Culture University, Taiwan |
| AS29-A012 |
The Spatial and Temporal Character Analysis of Complex Terrain Rainfall in Northeastern Taiwan with Northeasterly Condition in 1961-2020 |
Chin-Hsiang WU, Wen-Wei TSENG, Shih-Hao SU#+
Chinese Culture University, Taiwan |
| AS29-A013 |
Characteristics of Mountain-wave Occurrence in the Taebaek Mountain Range Based on GK-2A |
Dabin YEOM+, Jinyeong KIM, Myoung Hwan AHN#
Ewha Womans University, Korea, South |
| AS29-A025 |
Snow Cover Change in Mountain Regions |
Manuel Tobias BLAU1#+, Pratik KAD2, Kyung-Ja HA2
1IBS Center for Climate Physics; Pusan National University, Korea, South, 2Pusan National University, Korea, South |
| AS29-A014 |
Investigating the Heavy Precipitation Over Complex Topography in the Stratocumulus-dominated Environment Using Idealized Large-eddy Simulations |
Jun-Jie CHANG, Wei-Ting CHEN#+, Chien-Ming WU
National Taiwan University, Taiwan |
| AS29-A016 |
Investigating Impacts of Local Circulation on Coastal Ozone Problem in the New York Metropolitan Area: A Modeling and Observational Study |
Sarah LU1#+, Chin-An LIN2, Huiying LUO2
1University at Albany, State University of New York, United States, 2University at Albany - State University of New York, United States |
| AS29-A018 |
Numerical Simulation of Boundary Layer Characteristics in the Taipei Basin and Yilan Region Under Northeast Monsoon Conditions |
Pei-Di JENG#+, Jou-Ping HOU
National Defense University, Taiwan |
| AS29-A022 |
Statistical Characteristics of Sounding-derived Parameters of Mesoscale Convective Systems Over South Korea |
Si-Hyeon SON+, Kwonil KIM, Kyuhee SHIN, Gyu Won LEE#
Kyungpook National University, Korea, South |
| AS29-A019 |
Characterization of the Boundary Layer Mean and Turbulence Structures Over the Heterogeneous Land Surface in Taiwan |
Fang-Yi CHENG#+, Yu-Tzu WANG, Yi-Cheng LIN
National Central University, Taiwan |
| AS29-A020 |
Assimilation of the High Vertical-resolution PBL Observations During the TPOMDA Field Campaign and its Impact on Meteorological Analysis and Air-quality Simulation |
Shu-Chih YANG#+, Chih-Kuan WANG, Sheng-Hsiang WANG, Fang-Yi CHENG
National Central University, Taiwan |
| AS29-A023 |
The Intercomparisons Between Various Sounding Systems Launching at Jeju Island in Summer Experiment 2021 |
Chia-Lun TSAI1#+, Hung-Chi KUO2, Shih-Hao SU2, Geunsu LYU3, Gyu Won LEE3
1Chinese Culture University, Taiwan, 2National Taiwan University, Taiwan, 3Kyungpook National University, Korea, South |
| AS29-A021 |
Preliminary Analysis of the Autumntime Heavy Rainfall Event Over Northeastern Taiwan Related to the Typhoon Nesat and Northeasterly Wind |
Siang-Yu ZHAN#+, Pay-Liam LIN, Chen-Hau LAN
National Central University, Taiwan |
| AS29-A024 |
Radar-based Precipitation Growth and Decay Patterns During the Summer Season in South Korea |
Kwonil KIM1+, Chia-Lun TSAI2, Gyu Won LEE1#
1Kyungpook National University, Korea, South, 2Chinese Culture University, Taiwan |
| AS30 Mesoscale and Orographic Effects on Airflow, Precipitation and Weather Systems |
| Abstract ID |
Abstract Title |
Authors |
| AS30-A001 |
Effect of Boundary Layer Process on Snowfall in Beijing Under Complex Terrain |
Bo YU#+
Beijing Meteorological Service, China |
| AS30-A006 |
Characteristics of Cold Air Damming and its Effect on Snowfall in the Yeongdong Region of Korea |
Younggil CHOI1, Ji Yun KIM1+, Han JINHEON1, Kim TAE YEON1, Byung-Gon KIM1#, Byunghwan LIM2, Gyu Won LEE3
1Gangneung-Wonju National University, Korea, South, 2National Institute of Meteorological Sciences, Korea, South, 3Kyungpook National University, Korea, South |
| AS30-A003 |
Influence of Complex Terrain on the 21.7 Zhengzhou Extreme Rainfall |
Peng WEI#+, Xin XU
Nanjing University, China |
| AS30-A002 |
Impact of Parameterized Topographic Drag on a Simulated Northeast China Cold Vortex |
Mingshan LI1#, Xin XU1+, Shuixin ZHONG2, Yuan WANG1
1Nanjing University, China, 2China Meteorological Administration, China |
| AS30-A024 |
Simulation of Flow Around a Flat Obstacle Placed in a Rotating Stratified Flow |
Reina ORITA#+, Tetuya KAWAMURA, Tsubasa KOHYAMA
Ochanomizu University, Japan |
| AS30-A004 |
Orographic-induced Winds Seen from WISSDOM Under the Clear-air Condition: A Case Study on 14 February 2018 |
Chia-Lun TSAI1#+, Kwonil KIM2, Yu-Chieng LIOU3, Gyu Won LEE2
1Chinese Culture University, Taiwan, 2Kyungpook National University, Korea, South, 3National Central University, Taiwan |
| AS30-A005 |
A Trigger of Small-scale Terrain to Generate Stationary Precipitating Systems Under Extremely Humid Conditions |
Tetsuya TAKEMI#+, Nanami NAKA
Kyoto University, Japan |
| AS30-A008 |
Analysis of Phase Change in Solid Precipitation in the Yeongdong Region of Korea: Episode Analysis of Ice Pellet and Graupel |
Ji Yun KIM1+, Younggil CHOI1, Han JINHEON1, Kim TAE YEON1, Byung-Gon KIM1#, Kwonil KIM2, Gyu Won LEE2
1Gangneung-Wonju National University, Korea, South, 2Kyungpook National University, Korea, South |
| AS30-A007 |
Clustering of Distinct “Wind-precipitation” Regimes Over the West Coast of India During Asian Summer Monsoon |
Prajwal K.1#+, Ajil KOTTAYIL1, Prince XAVIER2
1Cochin University of Science and Technology, India, 2Met Office Hadley Centre, United Kingdom |
| AS30-A015 |
Development of a Seeder-feeder Orographic Precipitation Model in the Typhoon Environment |
Lin-Wen CHENG#+, Cheng-Ku YU, Syuan-Ping CHEN
National Taiwan University, Taiwan |
| AS30-A009 |
Observed Kinematics and Microphysics of Orographic Precipitation Associated with a Landfalling Typhoon Rainband |
Tsubaki HOSOKAWA#+, Cheng-Ku YU
National Taiwan University, Taiwan |
| AS30-A017 |
Characteristics and Processes of Orographic Precipitation Over Da-Tun Mountain Associated with Typhoon Saola (2012) |
Ming-Jen HSU#+, Cheng-Ku YU, Lin-Wen CHENG
National Taiwan University, Taiwan |
| AS30-A011 |
Persistent Rainbows Induced by the East Asian Winter Monsoon and Mesoscale Mountains in Northern Taiwan |
Kun-Hsuan CHOU#+
Chinese Culture University, Taiwan |
| AS30-A012 |
The Study of the Lightning Distribution and its Formation Mechanism Over the Strait of Malacca |
Kai-Chun WANG1#+, Kun-Hsuan CHOU2, Chun-Ming YEH1
1Graduate Institute of Earth Science, Chinese Culture University, Taiwan, 2Department of Atmosphere Sciences, Chinese Culture University, Taiwan |
| AS30-A013 |
Taiwan Rainbands Formed in the Outer Region of Tropical Cyclones |
Che-Yu LIN#+, Cheng-Ku YU
National Taiwan University, Taiwan |
| AS30-A018 |
Convective Characteristics of Outer Tropical Cyclone Rainbands and Their Similarity with Squall Lines |
Brian JENG#+, Cheng-Ku YU, Che-Yu LIN
National Taiwan University, Taiwan |
| AS30-A021 |
Assessment of Wind and PM2.5 Prediction with Lidar Data Assimilation in Taiwan |
Fang-Yi CHENG#+, Cheng-Pei YANG, Shu-Chih YANG, Sheng-Hsiang WANG, Chia-Hua HSU, Lian-Jie WANG
National Central University, Taiwan |
| AS30-A019 |
High-resolution Numerical Simulation of the Record-breaking 2018 Kauai Flooding |
Pao-Shin CHU1#+, Xiao LUO1, Cheng-Ku YU2
1University of Hawaii, United States, 2National Taiwan University, Taiwan |
| AS30-A023 |
The Study of Overall Physical Characteristics for Precipitation Types Using Observation Datasets |
Choeng-Lyong LEE1+, Wonbae BANG1, Chia-Lun TSAI2, Ji-Hye JUNG1, Gyu Won LEE1#
1Kyungpook National University, Korea, South, 2Chinese Culture University, Taiwan |
| AS30-A022 |
Evaluation of Precipitation Type Based on Spectral Bin Model and LDAPS |
Wonbae BANG1+, Kwonil KIM1, Carlin JACOB2,3, Alexander RYZHKOV2,3, Sanghun LIM1, Gyu Won LEE1#
1Kyungpook National University, Korea, South, 2NOAA Oceanic and Atmospheric Research, United States, 3NOAA National Severe Storms Laboratory, United States |
| AS32 Frameworks, Modelling, and Observations to Understand Moist Convective Processes for Weather and Climate |
| Abstract ID |
Abstract Title |
Authors |
| AS32-A001 |
Bridging the Gap Between Implementing and Understanding the Weak Temperature Gradient Approximation in Cloud Resolving Models |
Nathanael WONG#+, Zhiming KUANG
Harvard University, United States |
| AS32-A002 |
Parameterizing Convection and Clouds with an Ensemble of Neural Networks |
Yilun HAN1#+, Guang ZHANG2, Yong WANG1
1Tsinghua University, China, 2 University of California San Diego, United States |
| AS32-A003 |
Relationship Between Strength of the Walker Circulation and Dominant Equatorial Waves |
Ryoko ARAI1#+, Tamaki SUEMATSU2, Tsubasa KOHYAMA1
1Ochanomizu University, Japan, 2RIKEN, Japan |
| AS32-A004 |
Observed and Projected Changes of Large-scale Environments Conducive to Spring MCS Initiation Over the U.S. Great Plains |
Fengfei SONG1#+, L. Ruby LEUNG2, Zhe FENG2, Qiu YANG2, Xingchao CHEN3
1Ocean University of China, China, 2Pacific Northwest National Laboratory, United States, 3The Pennsylvania State University, United States |
| AS32-A005 |
“Relay-race” Propagation of Super Clusters in a Cloud-permitting Simulation of the Madden-Julian Oscillation |
Yan LIU1#+, Zhe-Min TAN1, Zhaohua WU2
1Nanjing University, China, 2Florida State University, United States |
| AS32-A006 |
Contrasting the Convective Energy Recharge-discharge Cycle Between Propagating and Eastward-decaying Madden-Julian Oscillation Events |
Jia-Yuh YU#, Yu-Cian TSAI+
National Central University, Taiwan |
| AS32-A008 |
Machine Learning Parameterization of the Multi-scale Kain-Fritsch (MSKF) Convection Scheme in Grey-zone |
Xing YU1+, Xiaohui ZHONG2#
1Shenzhen Institute of Artificial Intelligence and Robotics for Society, China, 2Fudan University, China |
| AS32-A007 |
The Nonlocal Response of Convective Updraft to Buoyancy and Dynamic Pressure Perturbation |
Yi-Hung KUO1#+, J. David NEELIN2, Ming ZHAO3, Zhihong TAN1
1Princeton University, United States, 2University of California, Los Angeles, United States, 3NOAA's Geophysical Fluid Dynamics Laboratory, United States |
| AS32-A009 |
Surface Thermodynamic Gradients and ITCZ Properties in Idealised Simulations Over an Aquapatch |
Maxime COLIN#+, Jan O. HAERTER
Leibniz Centre for Tropical Marine Research, Germany |
| AS32-A011 |
Stratospheric Influence on Tropical Convective Systems in a Minimal Model Framework of QBO-like Oscillations |
Shigeo YODEN#+
Kyoto University, Japan |
| AS32-A012 |
Towards a Stochastic Parameterization of Unresolved MCS Impacts on Large Scales |
Robert PLANT1#+, Hannah CHRISTENSEN2, Mark MUETZELFELDT1, Tim WOOLLINGS2, Zhixiao ZHANG2
1University of Reading, United Kingdom, 2University of Oxford, United Kingdom |
| AS33 Reactive Nitrogen and Atmosphere-biosphere Interactions |
| Abstract ID |
Abstract Title |
Authors |
| AS33-A002 |
Real-time, Online Monitoring of Ammonia and Greenhouse Gas Emissions in Livestock with Cavity Ring-down Spectroscopy |
Jinshu YAN1#+, Thomas GOTTSCHALK1, Xiaojing ZHANG2, Jie WANG2, Magdalena E. G. HOFMANN1
1Picarro Incorporated, United States, 2Picarro Incorporated, China |
| AS33-A003 |
Leaching Losses of Nutrients in Wetland Paddy Fields Under Different Nitrogen Management |
Md. Mizanur RAHMAN1#+, Majharul ISLAM1, Mohammad Saiful ALAM1, Robert Martin REES2, GKM Mustafizur RAHMAN1, Md. Giashuddin MIAH1, Arti BHATIA3, Tapan Kumar ADHYA4, Mark A. SUTTON5
1Bangabandhu Sheikh Mujibur Rahman Agricultural University, Bangladesh, 2Scotland's Rural College, United Kingdom, 3ICAR- Indian Agricultural Institute, India, 4Kalinga Institute of Industrial Technology, India, 5Centre for Ecology and Hydrology, United Kingdom |
| AS33-A004 |
Establishment of National Soil Nitrous Acid Emissions Network in China: Parameterization and its Application in Model |
Yanan WANG1#+, Xiao FU2, Tao WANG1
1The Hong Kong Polytechnic University, Hong Kong SAR, 2Tsinghua University, China |
| AS33-A006 |
Long-range Transport of Atmospheric Inorganic Reactive Nitrogen (Nr) and Other Ionic Species at a Nr Emission Hotspot of Northern India |
U.C. KULSHRESTHA#+, Moh NASEEM
Jawaharlal Nehru University, India |
| AS33-A007 |
Reducing Ammonia Volatilization and Improving Nitrogen Use Efficiency Using Coated Fertilizer |
Arti BHATIA1#+, Vinod KUMAR1, Ritu TOMER1, Shikha SHARMA1, Ankita PAUL1, Sandeep KUMAR1, Niveta JAIN2, Mark A. SUTTON3
1ICAR- Indian Agricultural Institute, India, 2ICAR- Indian Agricultural Research Institute (PUSA), India, 3Centre for Ecology and Hydrology, United Kingdom |
| AS33-A009 |
Mitigating Reactive Nitrogen Loss and Associated Environmental Damages: Opportunities from Changes in Food Production, Consumption and Supply Chains |
Yixin GUO1#+, Lin ZHANG1, Denise MAUZERALL2, Tim SEARCHINGER2, Gang LIU1, Pan HE3, Mi ZHOU2
1Peking University, China, 2Princeton University, United States, 3Cardiff University, United Kingdom |
| AS33-A010 |
Kinetics of the Nitrate-mediated Photooxidation of Monocarboxylic Acids in the Aqueous Phase |
Yuting LYU+, Jany Ting Chun CHOW, Theodora NAH#
City University of Hong Kong, Hong Kong SAR |
| AS33-A011 |
Reducing Leaching Losses of Mineral Nitrogen from Paddy Fields with Different Nitrogen and Water Managements Practices |
Niveta JAIN1#+, Om KUMAR2, Archana SHARMA2, Helen MARY ROSE2, Arti BHATIA2, Julia DREWER3, Mark A. SUTTON3
1ICAR- Indian Agricultural Research Institute (PUSA), India, 2ICAR- Indian Agricultural Institute, India, 3Centre for Ecology and Hydrology, United Kingdom |
| AS34 Climate Drivers of Rainfall Variability Over the Maritime Continent |
| Abstract ID |
Abstract Title |
Authors |
| AS34-A001 |
Modelling the Climatology of Tropical Islands of Different Sizes Using the Weak Temperature Gradient Approximation |
Nathanael WONG#+, Zhiming KUANG
Harvard University, United States |
| AS34-A002 |
The Characteristics of the Equatorial Waves Caused a Record Torrential Rain Event Over Sumatra Island |
Pei-Ming WU1#+, Yoshiki FUKUTOMI2, Kazuyoshi KIKUCHI3
1Japan Agency for Marine-Earth Science and Technology, Japan, 2Nagoya University, Japan, 3University of Hawaii at Manoa, United States |
| AS34-A003 |
Relationship Between Convectively Coupled Equatorial Waves and Sumatra Squalls Affecting Singapore |
Hanh NGUYEN1#+, Matthew WHEELER1, Muhammad Eeqmal HASSIM2,3, Sandeep SAHANY2, Xin Rong CHUA2, Aurel MOISE2
1Bureau of Meteorology, Australia, 2Centre for Climate Research Singapore, Singapore, 3Meteorological Service Singapore, Singapore |
| AS34-A004 |
Shipborne Doppler Radar Observations of Daily and Subdaily Wind and Divergence Variations Off the Southwestern Coast of Sumatra |
Biao GENG#+
Japan Agency for Marine-Earth Science and Technology, Japan |
| AS34-A005 |
The Indo-Pacific Warm Pool Expansion May Be Slower Than Expected Under Greenhouse Warming – From the View of its Role in the Climate System |
Jeremy Cheuk-Hin LEUNG1+, Banglin ZHANG2#, Qiuying GAN3, Lei WANG3, Zeng-Zhen HU4
1Guangzhou Institute of Tropical and Marine Meteorology/Guangdong Provincial Key Laboratory of Regional Numerical Weather Prediction, China Meteorological Administration, China, 2China Meteorological Administration, China, 3Guangdong Ocean University, China, 4National Oceanic and Atmospheric Administration, United States |
| AS34-A007 |
Physical Mechanisms of Offshore Propagation of Convection in the Maritime Continent |
Simon PEATMAN1#+, Cathryn BIRCH1, Juliane SCHWENDIKE1, John MARSHAM1, Chris DEARDEN1, Stuart WEBSTER2, Emma HOWARD3, Steve WOOLNOUGH4, Ryan NEELY1, Adrian MATTHEWS5
1University of Leeds, United Kingdom, 2Met Office, United Kingdom, 3Bureau of Meteorology, Australia, 4University of Reading, United Kingdom, 5University of East Anglia, United Kingdom |
| AS34-A008 |
Linking Rainfall Changes Over Maritime Continent to Walker Circulation Shifts Under Warming |
Chen CHEN1#+, Sandeep SAHANY1, Aurel MOISE1, Xin Rong CHUA1, Muhammad Eeqmal HASSIM1,2, Gerald LIM1, Venkatraman PRASANNA2
1Centre for Climate Research Singapore, Singapore, 2Meteorological Service Singapore, Singapore |
| AS34-A009 |
Future Projections of Cold Surges Over the Maritime Continent from CMIP6 GCMs |
Xin Rong CHUA1#+, Sandeep SAHANY1, Aurel MOISE1, Chen CHEN1, Muhammad Eeqmal HASSIM1,2, Gerald LIM1, Venkatraman PRASANNA2
1Centre for Climate Research Singapore, Singapore, 2Meteorological Service Singapore, Singapore |
| AS35 Aerosols, Clouds, Radiation, Precipitation, and Their Interactions |
| Abstract ID |
Abstract Title |
Authors |
| AS35-A005 |
Diagnostic Cloud Fraction Scheme Based on Cloud Hydrometeors |
Raeseol PARK1#+, Jung-Yoon KANG1, Soo Ya BAE1, Suk-Jin CHOI2
1Korea Institute of Atmospheric Prediction Systems, Korea, South, 2Gangneung-Wonju National University, Korea, South |
| AS35-A001 |
Quantifying Particle-to-particle Heterogeneity in Aerosol Hygroscopicity |
Liang YUAN1+, Chunsheng ZHAO2#
1Chengdu University of Information Technology, China, 2Peking University, China |
| AS35-A002 |
Evaluation and Attribution of Shortwave Feedbacks to ENSO in CMIP6 Models |
Huang JUNJIE1+, Lijuan LI2#, Ran HAIYAN2, Liu JUAN3, Bin WANG2, Feng TAO4, Youli CHANG4
1IAP, Chinese Academy of Sciences, China, 2Chinese Academy of Sciences, China, 3Beijing Institute of Applied Meteorology, China, 4Yunnan University, China |
| AS35-A003 |
Model Simulation of the Aerosol Perturbation on the Tibetan Plateau Convective Precipitation |
Mengjiao JIANG1,2+, Yaoting LI3, Weiji HU1, Yinshan YANG4, Guy BRASSEUR2#
1Chengdu University of Information Technology, China, 2Max Planck Institute for Meteorology, Germany, 3Civil Aviation Flight University of China, China, 4Beijing Normal University, China |
| AS35-A031 |
Including Ice-cloud Longwave Scattering and Surface Spectral Emissivities in Climate Models Leads to More Impacts on Mean-state Climate Than Climate Feedbacks |
Chongxing FAN1#+, Yi-Hsuan CHEN1, Xiuhong CHEN1, Wuyin LIN2, Xianglei HUANG1, Ping YANG3
1University of Michigan, United States, 2Brookhaven National Laboratory, United States, 3Texas A&M University, United States |
| AS35-A004 |
Spatial Heterogeneity of Aerosol Effect on Liquid Cloud Microphysical Properties in the Warm Season Over Tibetan Plateau |
Pengguo ZHAO#+
Chengdu University of Information Technology, China |
| AS35-A006 |
Cloud Vertical Overlap for Radiation Processes in the Korean Integrated Model |
So-Young KIM#+
Korea Institute of Atmospheric Prediction Systems, Korea, South |
| AS35-A007 |
Aerosol Impacts on the Precipitation of Squall Lines: A Case Study in South China |
Hui XIAO#+
Guangzhou Institute of Tropical and Marine Meteorology, China Meteorological Administration, China |
| AS35-A011 |
A Regime-based Investigation Into the Errors of CMIP6 Simulated Cloud Radiative Effects Using Satellite Observations |
Hao MIAO1#+, Xiaocong WANG2, Yimin LIU2, Guoxiong WU2
1Nanjing Joint Institute for Atmospheric Sciences, China, 2Chinese Academy of Sciences, China |
| AS35-A008 |
Rethinking of Aerosol-cloud-interaction and Aerosol-radiation-interaction by Accounting for Cloud-PBL-coupling |
Zhanqing LI1,2#+
1University of Maryland, United States, 2Beijing Normal University, China |
| AS35-A009 |
Smoke-weather Interaction Affects Cloud, Precipitation and Extreme Wildfires in Southeast Asia |
Ke DING1#+, Aijun DING1, Xin HUANG1, Yafang CHENG2
1Nanjing University, China, 2Max Planck Institute for Chemistry, Germany |
| AS35-A013 |
Radiative Forcing Bias Calculation Based on Core-shell Mie Model Optimization of AERONET Data |
Pravash TIWARI1+, Jason COHEN1#, Xinying WANG2, Shuo WANG3
1China University of Mining and Technology, China, 2Sun Yat-sen University, China, 3Chengdu University of Information Technology, China |
| AS35-A014 |
Exploring Aerosol-cloud Interactions Over Eastern China and its Adjacent Ocean Using the WRF-SBM-MOSAIC Model |
Jianqi ZHAO1+, Xiaoyan MA1#, Johannes QUAAS2, Hailing JIA2
1Nanjing University of Information Science & Technology, China, 2Leipzig University, Germany |
| AS35-A016 |
Cloud Removal Using Machine Learning for BRDF/albedo Retrievals in the Arctic |
Vikas HANASOGE NATARAJA#+
University of Colorado Boulder, United States |
| AS35-A017 |
Determined Characteristics of Particulate Matters and Precipitations and the Impacts of Wet Removal Based on Long-term Surface Measurements in Seoul, Korea |
Suji HAN1+, Junshik UM1#, Seoung Soo LEE2, Chang Hoon JUNG3
1Pusan National University, Korea, South, 2Earth System Science Interdisciplinary Center, United States, 3Kyungin Women's University, Korea, South |
| AS35-A018 |
Impact of Aerosols on Clouds with Different Weather Patterns in Northwestern Pacific |
Keying LI1#+, Tianyi FAN1, Chuanfeng ZHAO2, Xin YANG1
1Beijing Normal University, China, 2Peking University, China |
| AS35-A021 |
Do Aerosols Increase or Decrease Precipitation? |
Kalli FURTADO#+, Paul FIELD
Met Office, United Kingdom |
| AS35-A022 |
Contrasting Influence of Nitrogen Oxides on the Cloud Condensation Nuclei Activity of Monoterpene-derived Secondary Organic Aerosol in Daytime and Nighttime Oxidation |
Chenqi ZHANG1+, Yindong GUO1, Hongru SHEN1, Hao LUO1, Iida PULLINEN2, Sebastian SCHMITT2, Mingjin WANG3, Hendrik FUCHS2, Astrid KIENDLER-SCHARR2, Andreas WAHNER2, Thomas MENTEL2, Defeng ZHAO1#
1Fudan University, China, 2Forschungszentrum Jülich, Germany, 3Hefei University of Technology, China |
| AS35-A023 |
Air Pollution Characteristics and Source Tracking in Megacity Chengdu Based on Cruise Observation |
Hancheng HU#+
Chengdu University of Information Tectnology, China |
| AS35-A024 |
Numerical Simulations of Cloud Number Concentration and Ice Nuclei Influence on Cloud Processes and Seeding Effects |
Xiaofeng LOU#+
China Meteorological Administration, China |
| AS35-A025 |
What are the Similarities and Differences in Marine Boundary Layer Cloud and Drizzle Microphysical Properties During ACE-ENA and Marcus Field Campaigns? |
Baike XI1#+, Alexa MARCOVECCHIO1, Xiaojian ZHENG1, Peng WU2, Xiquan DONG1, Ali BEHRANGI1
1University of Arizona, United States, 2Pacific Northwest National Laboratory, United States |
| AS35-A026 |
A Climatology of Mid-latitude Cloud Fraction and Radiative Effect Over the Land and Ocean |
Xiquan DONG1#+, Baike XI1, Xiaojian ZHENG1, Shaocheng XIE2
1University of Arizona, United States, 2Lawrence Livermore National Laboratory, United States |
| AS35-A027 |
Vertical Profiles of Cloud Condensation Nuclei Number Concentration and its Empirical Estimate from Aerosol Optical Properties Over the North China Plain |
Yuying WANG1#+, Rui ZHANG1, Zhaniqng LI2
1Nanjing University of Information Science & Technology, China, 2University of Maryland, United States |
| AS35-A029 |
21st Century Global and Regional Surface Temperature Projections and Uncertainties Due to Cloud and Aerosol Forcing and Feedbacks |
Jonathan JIANG#+
Jet Propulsion Laboratory, California Institute of Technology, United States |
| AS35-A028 |
Emergent Constraint on Extratropical Marine Low Cloud Feedback |
Hui SU1#+, Xianan JIANG2, Jonathan JIANG3, J. David NEELIN2, Longtao WU3, Yoko TSUSHIMA4
1The Hong Kong University of Science and Technology, Hong Kong SAR, 2University of California, Los Angeles, United States, 3Jet Propulsion Laboratory, California Institute of Technology, United States, 4Met Office, United Kingdom |
| AS35-A030 |
Evaluation of Cloudy-sky Radiative Flux Datasets Derived from MODIS Aqua and MODIS-VIIRS Cloud Products Against Satellite- and Ground-based Clouds and Radiation Observations |
Colten PETERSON#+, Kerry MEYER, Steven PLATNICK
NASA Goddard Space Flight Center, United States |
| AS35-A033 |
Impacts of Dust on the Cloud Formation Time Over the Badain Jaran Desert Region |
Xin ZHAO1+, Chuanfeng ZHAO2#, Yikun YANG2, Yulei CHI1, Yue SUN1
1Beijing Normal University, China, 2Peking University, China |
| AS35-A032 |
North Atlantic Oscillation Associated Variation in Cloud Phase and Cloud Radiative Forcing Over the Greenland Ice Sheet |
Haotian ZHANG1#+, Chuanfeng ZHAO2, Jie YANG1, Yikun YANG2
1Beijing Normal University, China, 2Peking University, China |
| AS36 Regional Climate Downscaling and Cordex: Challenges and Prospects |
| Abstract ID |
Abstract Title |
Authors |
| AS36-A001 |
Future Changes in Monsoon Precipitation Over the Indonesian Region Obtained by Bias Correction and Statistical Downscaling Methods: Including the Differences Between CMIP5 and CMIP6 GCMs |
Motoki NISHIMORI1#+, Michihiko TONOUCHI2, Hiroshi SATODA2, Kadarsah 3, Agus SABANA HADI3, Dodo GUNAWAN3
1National Agriculture and Food Research Organization, Japan, 2Japan Meteorological Business Support Center, Japan, 3Indonesian Agency for Meteorology, Climatology and Geophysics, Indonesia |
| AS36-A018 |
Reproducibility Evaluation on High-resolution Downscaled Climate Data Estimated by IGISRM |
Chansung OH1+, Jaeyong CHOI2, Jaepil CHO1#
1Integrated Watershed Management Institute, Korea, South, 2Chungnam National University, Korea, South |
| AS36-A021 |
Future Projections of Bioclimatic Indicators on Korean Peninsula Using SSP Scenarios |
Chansung OH1+, Jina HUR2, Sera JO2, Seung Beom SEO3, Jaepil CHO1#
1Integrated Watershed Management Institute, Korea, South, 2National Institute of Agricultural Sciences, Korea, South, 3University of Seoul, Korea, South |
| AS36-A002 |
Climate Change Projection Over Mainland Southeast Asia and the Lancang-Mekong River Basin Based on a Set of RegCM4 Simulations |
Yuanhai FU1#+, Xuejie GAO2, Ying XU3, Filippo GIORGI4
1Institute of Atmospheric Physics, Chinese Academy of Sciences, China, 2Chinese Academy of Sciences, China, 3National Climate Center, China, 4The Abdus Salam International Centre for Theoretical Physics, Italy |
| AS36-A003 |
Bias Correction of Temperature and Precipitation Over China for RCM Simulations Using the QM and QDM Methods |
Xuejie GAO1#+, Yao TONG1, Zhenyu HAN2, Filippo GIORGI3
1Chinese Academy of Sciences, China, 2China Meteorological Administration, China, 3The Abdus Salam International Centre for Theoretical Physics, Italy |
| AS36-A004 |
Future Projection of Precipitation Over the Korean Peninsula Under Global Warming Levels of 1.5℃ and 2.0℃, Using Large Ensemble of RCMs in CORDEX-EA Phase 2 |
DoHyun KIM1#+, Jin-Uk KIM2, Young-Hwa BYUN1, Tae Jun KIM1
1National Institute of Meteorological Sciences, Korea, South, 2Korea Meteorological Administration, Korea, South |
| AS36-A006 |
Projection of Future Photovoltaic Potential in South Korea Based on High-resolution SSP Scenarios |
Jinuk KIM#+, Do-Hyun KIM, Tae Jun KIM, Young-Hwa BYUN
National Institute of Meteorological Sciences, Korea, South |
| AS36-A010 |
Correcting Multivariate Bias in RCM Boundary Conditions for Improved Simulation of Extremes |
Youngil KIM1#+, Jason EVANS1, Ashish SHARMA2
1University of New South Wales, Australia, 2UNSW Sydney, Australia |
| AS36-A017 |
Projection of Extreme Heatwaves Over the CORDEX-East Asia Phase 2 Domain Under RCP and SCP Scenarios |
Young Hyun KIM1#+, Joong-Bae AHN2, Dong-Hyun CHA1, Myoung-Seok SUH3, Eun-Chul CHANG3, Seung-Ki MIN4, Young-Hwa BYUN5, Jin-Uk KIM6
1Ulsan National Institute of Science and Technology, Korea, South, 2Pusan National University, Korea, South, 3Kongju National University, Korea, South, 4Pohang University of Science and Technology, Korea, South, 5National Institute of Meteorological Sciences, Korea, South, 6Korea Meteorological Administration, Korea, South |
| AS36-A013 |
Dynamical Downscaling Over Southeast Asia: Perfect vs Imperfect Boundary Conditions |
Venkatraman PRASANNA1#+, Xin Rong CHUA2, Chen CHEN2, Gerald LIM2, Sandeep SAHANY2, Muhammad Eeqmal HASSIM2,1, Aurel MOISE2
1Meteorological Service Singapore, Singapore, 2Centre for Climate Research Singapore, Singapore |
| AS36-A023 |
Improvement of a 1-month Prediction in South Korea Using Dynamical Downscaling and a Time-lagged Ensemble Method |
Subin HA1+, Eun-Soon IM1#, Jina HUR2, Sera JO2, Kyo-Moon SHIM2
1The Hong Kong University of Science and Technology, Hong Kong SAR, 2National Institute of Agricultural Sciences, Korea, South |
| AS36-A016 |
Changes in Wind Energy Potential Over East Asia Using the CORDEX-East Asia High-resolution Multiple Regional Climate Models |
Changyong PARK#+, Dong-Hyun CHA, Seok-Woo SHIN
Ulsan National Institute of Science and Technology, Korea, South |
| AS36-A019 |
Future Changes in Extreme Precipitation Over CORDEX East Asia |
Ana JUZBASIC1#+, Dong-Hyun CHA1, Joong-Bae AHN2, Seung-Ki MIN3, Eun-Chul CHANG4, Myoung-Seok SUH4, Young-Hwa BYUN5, Jin-Uk KIM6
1Ulsan National Institute of Science and Technology, Korea, South, 2Pusan National University, Korea, South, 3Pohang University of Science and Technology, Korea, South, 4Kongju National University, Korea, South, 5National Institute of Meteorological Sciences, Korea, South, 6Korea Meteorological Administration, Korea, South |
| AS36-A020 |
A Study on Global Warming Impact on Extreme East Asian Summer Monsoon in 2020 Using Regional Climate Model |
Tae Ho MUN#+, Dong-Hyun CHA
Ulsan National Institute of Science and Technology, Korea, South |
| AS36-A022 |
Future Activities of Tropical Cyclone Under the SSP Scenarios Using Multi-RCMs |
Eunji KIM1+, Taehyung KIM1, Tae Ho MUN1, Seok-Woo SHIN1, Minkyu LEE2, Dong-Hyun CHA1#, Eun-Chul CHANG3, Joong-Bae AHN4, Seung-Ki MIN2, Jin-Uk KIM5, Young-Hwa BYUN6
1Ulsan National Institute of Science and Technology, Korea, South, 2Pohang University of Science and Technology, Korea, South, 3Kongju National University, Korea, South, 4Pusan National University, Korea, South, 5Korea Meteorological Administration, Korea, South, 6National Institute of Meteorological Sciences, Korea, South |
| AS36-A024 |
Domain Shift Problem in Deep Learning-based Downscaling Models: Daily Precipitation |
Hae Soo JUNG+, Sungmin O, Seon Ki PARK#
Ewha Womans University, Korea, South |
| AS36-A025 |
Present Day Bias and Future Change Signal of Temperature Over China in a Series of Multi-GCM Driven RCM Simulations |
Jia WU1#+, Xuejie GAO2
1National Climate Center of China, China, 2Chinese Academy of Sciences, China |
| AS36-A027 |
Simulation of Extreme Hydrometeorological Events Over Southern China by a Regional Climate Model |
Michael SANDERSON#, Kalli FURTADO+, Nicholas SAVAGE, Grace REDMOND, Erasmo BUONOMO
Met Office, United Kingdom |
| AS36-A026 |
A Study on the Synoptic and Mesoscale Changes of Upward motion Affecting Future Precipitation Changes on the Korean Peninsula |
Tae-Min KIM#+, Eun-Chul CHANG, Namgu YEO, Jaedeok LEE, Ui-Yong BYUN, Joowan KIM
Kongju National University, Korea, South |
| AS37 Monitoring, Analysis, and Prediction of Typhoon and Climate Affecting Taiwan and the Philippines |
| Abstract ID |
Abstract Title |
Authors |
| AS37-A001 |
Large-scale Processes Modulating the Frequency of Typhoons Affecting Taiwan During 1900–1945 |
Pei-Hua TAN1#+, Jien-Yi TU2, Pen-Yuan CHEN1
1National Chiayi University, Taiwan, 2National Changhua University of Education, Taiwan |
| AS37-A002 |
Interannual Processes Suppressing Tropical Cyclone Activity Around Taiwan During October |
Jau-Ming CHEN1#+, Wei-Teh LI2
1National Kaohsiung University of Science and Technology, Taiwan, 2National Sun Yat-sen University, Taiwan |
| AS37-A003 |
Cold Surge Impacts on the South China Sea Boundary Layer |
Chung-Hsiung SUI#+, Kuan-Yun WANG, Mong-Ming LU
National Taiwan University, Taiwan |
| AS37-A009 |
Impact of Combination of Inflation Schemes in an Operational Local Ensemble Transform Kalman Filter (LETKF) |
Chin-Cheng TSAI1#+, Craig SCHWARTZ2, Guo-Yuan LIEN1, Siou-Ying JIANG1,3, Pao-Liang CHANG1, Jing-Shan HONG1, Chun-Chieh WU3
1Central Weather Bureau, Taiwan, 2National Center for Atmospheric Research, United States, 3National Taiwan University, Taiwan |
| AS37-A004 |
Intraseasonal Oscillations and the Subseasonal Peak Rainfall Event in the Eastern Philippines During 2017/18 Winter and S2S Prediction Evaluation |
Wayne Yuan-huai TSAI#+, Mong-Ming LU, Yin-Min CHO, Chung-Hsiung SUI
National Taiwan University, Taiwan |
| AS37-A005 |
The Impact of Scale-aware Parameterization on the Next-generation Global Prediction System in Taiwan for Front Predictions |
Chang-Hung LIN1#+, Ming-Jen YANG2, Ling-Feng HSIAO1, Jen-Her CHEN1
1Central Weather Bureau, Taiwan, 2National Taiwan University, Taiwan |
| AS37-A006 |
Weather and Climate Analysis of Tropical Cyclone Genesis Clustering Events in Western North Pacific Extended-weather Analysis |
Jian-Hung LIAO1#+, Chung-Hsiung SUI1, Jau-Ming CHEN2, Hsu-Feng TENG3
1National Taiwan University, Taiwan, 2National Kaohsiung University of Science and Technology, Taiwan, 3National Center for Atmospheric Research, United States |
| AS37-A007 |
Characteristics of the South Asian High Intraseasonal Variability and its Influence on the Precipitation Over the South China Sea and Surrounding Region |
Po-Chia CHEN#+, Mong-Ming LU
National Taiwan University, Taiwan |
| AS37-A008 |
An Observational Study on Rapid Intensification of Typhoon Chanthu (2021) Near Taiwan |
Wei-Ting FANG1+, Pao-Liang CHANG1#, Ming-Jen YANG2
1Central Weather Bureau, Taiwan, 2National Taiwan University, Taiwan |
| AS37-A010 |
Adopting Predicted Typhoon Inner Core Winds for WRF FDDA to Improve Typhoon Initial Structure of TWRF |
Hua HSU1#+, Der-Song CHEN2, Jia-Hong XIE2, Chun-Teng CHENG2, Ling-Feng HSIAO2, Pao-Liang CHANG2, Jing-Shan HONG2
1International Integrated Systems, Inc. (IISI), Taiwan, 2Central Weather Bureau, Taiwan |
| AS37-A012 |
The Development and Improvements of Global Ensemble Prediction System in Center Weather Bureau (CWBGEPS) |
Jia-Ying WU1#+, Pei-Hsuan KUO2, Pang-Yen LIU1, Jen-Her CHEN1, Ting-Huai CHANG1
1Central Weather Bureau, Taiwan, 2National Central University, Taiwan |
| AS37-A011 |
Investigate the Sensitivity of Updating Sea Surface Temperatures on TWRF Typhoon Predictions Over the Western North Pacific |
Der-Song CHEN1#+, Ling-Feng HSIAO1, Kang-Ning HUANG1, Chun-Teng CHENG1, Hua HSU2, Jing-Shan HONG1, Chin-Tzu FONG1
1Central Weather Bureau, Taiwan, 2International Integrated Systems, Inc. (IISI), Taiwan |
| AS37-A013 |
Sub-seasonal Rainfall Extremes and Extended-range Forecast Opportunity in Taiwan and the Philippines Revealed in the S2S Database |
Mong-Ming LU1#+, Wayne Yuan-huai TSAI1, Sheng-Feng HUANG1, Yin-Min CHO1, Chung-Hsiung SUI1, Ana Liza Solmoro SOLIS2, Meng-Shih CHEN3
1National Taiwan University, Taiwan, 2Philippine Atmospheric, Geophysical and Astronomical Services Administration, Philippines, 3Central Weather Bureau, Taiwan |
| AS37-A014 |
The Development of User-oriented Sub-seasonal to Seasonal Forecast Products for Water Resource Management in Taiwan |
Tzu-Ting LO1#+, Ching-Teng LEE2, YunChing LIN2, SzuYing LEE2, Jui-ling KUO2, Yun-Jing CHEN2, Meng-Shih CHEN2, Hsiao-Chung TSAI3
1National Taiwan University, Taiwan, 2Central Weather Bureau, Taiwan, 3Tamkang University, Taiwan |
| AS37-A017 |
The Taiwan WRF Ensemble Prediction System: Enhancement of Initial Perturbation via Integration with a Global Ensemble Prediction System |
Chih-Hsin LI#+, Guo-Yuan LIEN, Wen-Hsin TENG, Yi-Jui SU
Central Weather Bureau, Taiwan |
| AS37-A015 |
Analyzing Tropical Cyclone Wind Structure by Satellite Imagery Utilizing Convolutional Neural Networks |
Chun-Min HSIAO1#+, Buo-Fu CHEN2, Yung-Lan LIN1, Kuan-Liang LAI1, Treng-Shi HUANG1, Guo-Chen LU1
1Central Weather Bureau, Taiwan, 2National Taiwan University, Taiwan |
| AS37-A016 |
The Recent Development of Yhe Official Storm Surge Forecast System in Taiwan |
Tso-Ren WU1#+, Jun-Wei LIN1, Chuen-Teyr TERNG2
1National Central University, Taiwan, 2Central Weather Bureau, Taiwan |
| AS37-A018 |
The Next-generation Global Prediction System Development and Operational Implementation at Taiwan’s Central Weather Bureau |
Ling-Feng HSIAO#+, Guo-Yuan LIEN, Jen-Her CHEN, Jing-Shan HONG, Chin-Tzu FONG
Central Weather Bureau, Taiwan |
| AS37-A019 |
Mesoscale Analysis of Typhoons Near Landfall |
Ben Jong-Dao JOU1#+, Chi-June JUNG1, Yucheng KAO2
1National Taiwan University, Taiwan, 2Central Weather Bureau, Taiwan, Taiwan |
| AS37-A021 |
Sensitivity Analysis on WRF-generated Models for Tropical Cyclones During Winter La Nina |
Ana Liza Solmoro SOLIS1#+, Esperanza CAYANAN1, Joseph BASCONCILLO1, Mong-Ming LU2
1Philippine Atmospheric, Geophysical and Astronomical Services Administration, Philippines, 2National Taiwan University, Taiwan |
| AS38 Ensemble Modeling and Prediction of High-impact, Multi-scale Weather to Decadal Events |
| Abstract ID |
Abstract Title |
Authors |
| AS38-A001 |
Atlantic-forced Pacific Decadal Prediction: Observations and Model Simulations |
Jun-Chao YANG#, Zhen LV+, Yu ZHANG, Xiaopei LIN
Ocean University of China, China |
| AS38-A002 |
Research on the Influence of Uncertainty from Background Field and Lateral Boundary Conditions and Improvement of Large-scale Perturbation in Convection-permitting Ensemble Prediction System |
Hanbin ZHANG#+
Institute of Urban Meteorology,China Meteorological Administration, China |
| AS38-A010 |
Evaluation of Multi-scale Sampling Performance of Ensemble Perturbations in the NCEP Global Ensemble Forecast System and Mechanisms |
Li MA#+, Jie FENG
Fudan University, China |
| AS38-A005 |
Multidecadal Variation in the Seasonal Predictability of Winter PNA and its Sources |
Xiaoqin YAN#+, Youmin TANG, Wangjie YAO
Hohai University, China |
| AS38-A006 |
A Rapid Intensification Warning Index for Tropical Cyclones Based on the Analog Method |
Deyu LU#+, Quanjia ZHONG
Chinese Academy of Sciences, China |
| AS38-A007 |
Integral Correction of Initial and Model Errors in System of Multigrid NLS-4DVar Data Assimilation for Numerical Weather Prediction (SNAP) |
Hongqin ZHANG#+, Xiangjun TIAN
Chinese Academy of Sciences, China |
| AS38-A008 |
LSM Perturbation Experiment and Impact on Afternoon Thunderstorm Ensemble Forecast |
YuTze HONG#+, Jen-Ping CHEN
National Taiwan University, Taiwan |
| AS38-A015 |
Ensemble-based Sensitivity Analysis of the Track Forecasts of Typhoon In-fa in ECMWF, NCEP, and CMA Ensemble Prediction Systems |
Liangying LIU#+, Jie FENG
Fudan University, China |
| AS38-A017 |
The Backward Nonlinear Local Lyapunov Exponent and its Application to Quantifying the Local Predictability of Extreme High‑temperature Events |
Xuan LI1#+, Ruiqiang DING2
1Fudan University, China, 2Beijing Normal University, China |
| AS38-A022 |
Testing the IMPROVER Post-processing Suite in Singapore |
Robert HUVA1#+, Boon Chong Peter HENG2, Jeff LO1, Hugh ZHANG3
1Centre for Climate Research Singapore, Singapore, 2Meteorological Service Singapore, Singapore, 3CCRS, Singapore |
| AS38-A021 |
High-resolution Forecasting of Warm Season Rainstorms in Shanghai Using WRF: Role of Convection Representation Across the Gray Zone |
Fengxue QIAO1#+, Rui WANG2, Xinzhong LIANG3, Yiting ZHU4
1East China Normal University, China, 2Shanghai Central Meteorological Observatory, China, 3University of Maryland, United States, 4Fudan University, China |
| AS38-A023 |
Status and Plan of Ensemble Forecast System in Korea Meteorological Administration |
Eun-Jung KIM#+, Sora PARK, Hyun-Cheol SHIN, Jong Im PARK, Jong-Chul HA, Young-Cheol KWON
Korea Meteorological Administration, Korea, South |
| AS39 Models, in Situ, and Remote Sensing of Aerosols (MIRA) |
| Abstract ID |
Abstract Title |
Authors |
| AS39-A006 |
Constraints on Spectral Mass Extinction Efficiency for a Global Aerosol Model |
Edward HYER1#+, Christopher CAMACHO1, James CAMPBELL1, Peng XIAN1, James CHEN2, Andrew LAMBERT3, Lari MCDERMID3
1Naval Research Laboratory, United States, 2Kirby School, United States, 3General Dynamics Information Technology, United States |
| AS39-A004 |
Mapping Aerosol Lidar Ratios for CALIPSO Version 5 |
Greg SCHUSTER1#+, Travis TOTH2, Jayanta KAR3, Marian CLAYTON3, Zhujun LI3, David PAINEMAL3, Sharon RODIER3, Richard FERRARE1, Charles TREPTE1, Mian CHIN4, Dongchul KIM4, Ellsworth WELTON2, Huisheng BIAN4
1NASA Langley Research Center, United States, 2National Aeronautics and Space Administration, United States, 3NASA Science Systems and Applications, Inc., United States, 4NASA Goddard Space Flight Center, United States |
| AS39-A003 |
Lidar Ratios Determined from Ground-based Lidars Using AODs from Sky Radiometers as a Constraint in East Asia |
Man-Hae KIM1#+, Sang-Woo KIM1, Soojin PARK1, Tomoaki NISHIZAWA2, Atsushi SHIMIZU2
1Seoul National University, Korea, South, 2National Institute for Environmental Studies, Japan |
| AS39-A005 |
The Tables of Aerosol Optics (TAO) Project |
Greg SCHUSTER1#+, Bastiaan VAN DIEDENHOVEN2, Richard MOORE3, Elisabeth ANDREWS4,5, Joshua SCHWARZ4, Masanori SAITO6, Ping YANG6, Snorre STAMNES3, Benjamin JOHNSON7, Arlindo DA SILVA8, Mian CHIN8
1NASA Langley Research Center, United States, 2SRON Netherlands Institute for Space Studies, Netherlands, 3National Aeronautics and Space Administration, United States, 4National Oceanic and Atmospheric Administration, United States, 5University of Colorado Boulder, United States, 6Texas A&M University, United States, 7University Corporation for Atmospheric Research, United States, 8NASA Goddard Space Flight Center, United States |
| AS39-A007 |
Transboundary Transport Pattern Related to the Aerosol Pollution in South Korea |
Ja-Ho KOO#+, Donghee LEE, Taegyung LEE
Yonsei University, Korea, South |
| AS39-A008 |
Models, in Situ, and Remote Sensing of Aerosols (MIRA) International Working Group |
Charles TREPTE1#+, Sang-Woo KIM2, Greg SCHUSTER1, Oleg DUBOVIK3, Mian CHIN4, Maria Obmininda CAMBALIZA5
1NASA Langley Research Center, United States, 2Seoul National University, Korea, South, 3University of Lille, France, 4NASA Goddard Space Flight Center, United States, 5Ateneo de Manila University and Manila Observatory, Philippines |
| AS39-A009 |
Exacerbation of PM2.5 Concentration Due to Unpredictable Weak Asian Dust Storm: A Case Study of an Extraordinarily Long-lasting Spring Haze Episode in Seoul, Korea |
Kyuseok SHIM1+, Man-Hae KIM1, Hyo-Jung LEE2, Tomoaki NISHIZAWA3, Atsushi SHIMIZU3, Hiroshi KOBAYASHI4, Cheol-Hee KIM2, Sang-Woo KIM1#
1Seoul National University, Korea, South, 2Pusan National University, Korea, South, 3National Institute for Environmental Studies, Japan, 4University of Yamanashi, Japan |
| AS39-A010 |
Comparison of GOCI 6km-AOD and 500m-AOD in Estimating Ground-level PM2.5 Concentrations Over Metropolitan City Busan in South Korea Using Machine Learning Method |
Juhee LEE1+, Yeseul CHO1, Seoyoung LEE1, Kwang-min MYUNG2, Young-doh KIM3, Ja-Ho KOO1#
1Yonsei University, Korea, South, 2Data Intelligence Lab, Inc., Korea, South, 3Weatheri, Inc., Korea, South |
| AS39-A011 |
Comparison of PM2.5 Concentration Between the Surface Measurement and MERRA-2 Reanalysis Dataset in South Korea |
Dayeong LEE, Juhee LEE+, Ja-Ho KOO#
Yonsei University, Korea, South |
| AS39-A012 |
Impacts of the COVID-19 Lockdown in China on New Particle Formation and Particle Number Size Distribution in Three Regional Background Sites in Asian Continental Outflow |
Do-Hyeon PARK1+, Jeongeun KIM2,3, Jin-Soo PARK4, Jin-soo CHOI4, Sang-Woo KIM1#
1Seoul National University, Korea, South, 2Korea Meteorological Administration, Korea, South, 3National Institute of Meteorological Sciences, Korea, South, 4National Institute of Environmental Research, Korea, South |
| AS39-A013 |
Satellite-assisted Particulate Matter (SAPM) for the Models, In Situ, and Remote Sensing of Aerosols (MIRA) Working Group |
Travis TOTH1#+, Greg SCHUSTER1, Alexander MATUS2, Mian CHIN2, Meloë KACENELENBOGEN3, Edward NOWOTTNICK2, Melanie FOLLETTE-COOK2
1NASA Langley Research Center, United States, 2NASA Goddard Space Flight Center, United States, 3NASA Ames Research Center, United States |
| AS39-A015 |
Toward a Synergistic Use of GEO-LEO Satellite Observations, Atmospheric Measurements, and Models for Air Quality Research and Applications |
Mian CHIN1#+, Huisheng BIAN2, Qian TAN3, Tianle YUAN1,2, Hongbin YU1, Gao CHEN4
1NASA Goddard Space Flight Center, United States, 2University of Maryland, Baltimore County, United States, 3Bay Area Environmental Research Institute, United States, 4NASA Langley Research Center, United States |
| AS39-A014 |
Optical Properties of Boundary Layer Aerosols from High Spectral Resolution Lidar Measurements in a Polluted Urban Environment (Seoul, Korea) |
Soojin PARK1#+, Sang-Woo KIM1, Man-Hae KIM1, Robert HOLZ2, Ralph KUEHN2
1Seoul National University, Korea, South, 2University of Wisconsin, United States |
| AS39-A016 |
A Fractionation of Asian Dust and Locally Generated Dust Layers in Japan Using Depolarization Ratio Obtained by AD-net Lidars |
Atsushi SHIMIZU#+, Tomoaki NISHIZAWA, Yoshitaka JIN, Nobuo SUGIMOTO
National Institute for Environmental Studies, Japan |
| AS39-A017 |
Characteristics of PM2.5 at the Ground-level and Top of POSCO Tower, Incheon, Korea |
Yongjoo CHOI1#+, Jeonghoon LEE2, Saehee LIM3, Jiyoung KIM4, Yong Jae LIM4, Jongbyeok JUN1, Giyeol LEE1, Ilkwon NAM4, Sumin KIM4
1Hankuk University of Foreign Studies, Korea, South, 2Korea University of Technology and Education, Korea, South, 3Chungnam National University, Korea, South, 4National Institute of Environmental Research, Korea, South |
| AS39-A018 |
Long-term Monitoring of Aerosol Optical Properties by Sky Radiometer |
Kazuma AOKI1#+, Masahiro MOMOI2, Toshihiko TAKEMURA3
1University of Toyama, Japan, 2Generalized Retrieval of Atmosphere and Surface Properties, France, 3Kyushu University, Japan |
| AS39-A019 |
Improving Brown Carbon Evolution Processes in the WRF-Chem Model with DSCOVR EPIC Products |
Olga KALASHNIKOVA1#+, Yuan WANG1, Michael GARAY1, Chenchong ZHANG2, James COY3
1California Institute of Technology, United States, 2Purdue University, United States, 3Texas A&M University, United States |
| AS39-A021 |
Retrieval of Aerosol Optical Depth from Geostationary Environment Monitoring Spectrometer (GEMS) Using Machine Learning Approaches |
Hyunyoung CHOI+, Seohui PARK, Jungho IM#, Audrieauna BEATTY
Ulsan National Institute of Science and Technology, Korea, South |
| AS40 Middle Atmosphere |
| Abstract ID |
Abstract Title |
Authors |
| AS40-A001 |
Atmospheric-dynamical Impacts of the 2022 Hunga Tonga Volcanic Eruption |
Corwin WRIGHT#+
University of Bath, United Kingdom |
| AS40-A002 |
Study of the Ozone Layer Evolution in the Past and Future with ESM SOCOLv4 |
Eugene ROZANOV1,2#+, Timofei SUKHODOLOV1, Tatiana EGOROVA1, Jan SEDLACEK1, Arseniy DOYENNEL3
1World Radiation Center, Switzerland, 2ETH Zürich, Switzerland, 3Vrije Universiteit Amsterdam, Netherlands |
| AS40-A003 |
Strengthened Impact of the Equatorial Quasi-biennial Oscillation on the Extratropics in Both Hemispheres |
Jian RAO1#+, Chaim GARFINKEL2, Tongwen WU3, Rongcai REN4
1Nanjing University of Information Science & Technology, China, 2Hebrew University of Jerusalem, Israel, 3China Meteorological Administration, China, 4Chinese Academy of Sciences, China |
| AS40-A004 |
Impact of the Pacific Sector Sea Ice Loss on the Sudden Stratospheric Warming Characteristics |
Yvan ORSOLINI1#+, Jiarong ZHANG2, Varavut LIMPASUVAN2, Jinro UKITA3
1Norwegian Institute for Air Research, Norway, 2Coastal Carolina University, United States, 3Niigata University, Japan |
| AS40-A006 |
Contributions of Equatorial Planetary and Small-scale Gravity Wave Modes to the 2015/16 QBO Disruption Revealed in ERA5 |
Hyun-Kyu LEE+, Hye-Yeong CHUN#
Yonsei University, Korea, South |
| AS40-A005 |
Examining the Sudden Stratospheric Warming Events in High-top and Low-top Climate Model Large Ensembles |
Yu-Chiao LIANG1#+, Yih WANG1, Young-Oh KWON2, Claude FRANKIGNOUL3, Lorenzo POLVANI4, Lingling SUO5
1National Taiwan University, Taiwan, 2Woods Hole Oceanographic Institution, United States, 3Sorbonne University, France, 4Columbia University, United States, 5Nansen Environmental and Remote Sensing Center and Bjerknes Center for Climate Research, Norway |
| AS40-A007 |
Sea-land-breeze Bidirectional Gravity Waves Robustizing Stratospheric QBO: JRA-55 Data Analysis |
Manabu D. YAMANAKA1,2#+, Shin-Ya OGINO3
1Research Institute for Humanity and Nature, Japan, 2Kobe University, Japan, 3Japan Agency for Marine-Earth Science and Technology, Japan |
| AS40-A008 |
Studying Global Ozone Variability and Long-term Trends with Suomi NPP OMPS Measurements |
Natalya KRAMAROVA1#+, Stacey FRITH1,2, Jerald ZIEMKE1
1NASA Goddard Space Flight Center, United States, 2NASA Science Systems and Applications, Inc., United States |
| AS40-A013 |
Role of Tropical Lower Stratosphere Winds in Quasi-biennial Oscillation Disruptions and its Implications for Future Climate |
Min-Jee KANG1#+, Seok-Woo SON1, Rolando GARCIA2, Soon-Il AN3, Sang-Hun PARK3
1Seoul National University, Korea, South, 2National Center for Atmospheric Research, United States, 3Yonsei University, Korea, South |
| AS40-A015 |
Precursory Analysis Ensemble Spread Signals That Foreshadow Stratospheric Sudden Warmings |
Akira YAMAZAKI1#+, Shunsuke NOGUCHI2
1Japan Agency for Marine-Earth Science and Technology, Japan, 2Kyushu University, Japan |
| AS40-A014 |
A Comparison of Stratospheric Gravity Waves in a High-resolution General Circulation Model with 3-D Satellite Observations |
Haruka OKUI1#+, Corwin WRIGHT2, Neil HINDLEY2, Emily LEAR2, Kaoru SATO1
1The University of Tokyo, Japan, 2University of Bath, United Kingdom |
| AS40-A017 |
Interactions of Stationary Planetary Waves During Sudden Stratospheric Warmings |
Kseniia DIDENKO#+, Andrey KOVAL, Tatiana ERMAKOVA
St Petersburg University, Russian Federation |
| AS40-A016 |
Numerical Simulation of Changes in the General Circulation of the Middle and Upper Atmosphere During Transitional QBO Phases |
Andrey KOVAL#+, Tatiana ERMAKOVA, Kseniia DIDENKO, Nikolai GAVRILOV
St Petersburg University, Russian Federation |
| AS40-A018 |
Influences of the Equatorial Quasi-Biennial Oscillation on Regional Monsoon Systems in the Northern Subtropics in Summer and Winter |
Shigeo YODEN1#+, Vinay KUMAR2, Matthew HITCHMAN3
1Kyoto University, Japan, 2University of Delhi, India, 3University of Wisconsin-Madison, United States |
| AS40-A020 |
Study of Factors Influencing Polar Ozone in the Southern Hemisphere Using CCM SOCOL-3: Solution of the Problem with Satellite Data |
Andrey MIRONOV1#, Eugene ROZANOV2,3+, Vladimir ZUBOV4
1St Petersburg University, Russian Federation, 2World Radiation Center, Switzerland, 3ETH Zürich, Switzerland, 4Voeikov Main Geophysical Observatory, Russian Federation |
| AS40-A019 |
Atmospheric Gravity Wave Derived from the Neutral Wind with 5-min Resolution Routinely Retrieved by the Meteor Radar at Mohe |
Chi LONG1#+, Tao YU2, Yang-Yi SUN2, Jian ZHANG2, Jin WANG1, Na YANG2, Xiangxiang YANG2, Hailun YE3
1China University of Geosciences (Wuhan), China, 2China University of Geosciences, China, 3University of Science and Technology of China, China |
| AS40-A021 |
Disentangling the Drivers of the Brewer-Dobson Circulation Long-term Changes |
Petr SACHA1#, Petr PISOFT1+, Radek ZAJICEK1, Roland EICHINGER1, Ales KUCHAR2
1Charles University, Czech Republic, 2Universität Leipzig, Germany |
| AS41 Atmospheric Composition and Cloud Observations from Next Generation of Satellites- Breaking the Temporal Barriers |
| Abstract ID |
Abstract Title |
Authors |
| AS41-A005 |
The Dark Target Aerosol Project: Combining LEO and GEO Satellites for Monitoring Rapid Aerosol Changes on a Global Scale |
Robert LEVY1#+, Shana MATTOO2,1, Pawan GUPTA1, Yingxi SHI3, Virginia SAWYER1, Robert HOLZ4, Jennifer WEI5, Lorraine REMER3,6, Zhaohui ZHANG7,5, Bhaskar RAMACHANDRAN2
1NASA Goddard Space Flight Center, United States, 2NASA Science Systems and Applications, Inc., United States, 3University of Maryland, Baltimore County, United States, 4University of Wisconsin, United States, 5NASA Goddard Earth Sciences Data and Information Services Center, United States, 6Airphoton LLC, United States, 7Adnet Inc., United States |
| AS41-A004 |
A NASA GEO Imager Research Algorithm Dataset for Cloud Optical Properties, Part I: GEO Algorithm Description |
Steven PLATNICK1#+, Kerry MEYER1, Robert HOLZ2, Galina WIND3, Nandana AMARASINGHE3, Steve DUTCHER2, Andrew HEIDINGER4
1NASA Goddard Space Flight Center, United States, 2University of Wisconsin, United States, 3Science Systems and Applications, Inc., United States, 4National Oceanic and Atmospheric Administration, United States |
| AS41-A003 |
A NASA GEO Imager Research Algorithm Dataset for Cloud Optical Properties, Part II: Evaluation Against NASA LEO Products |
Kerry MEYER1#+, Steven PLATNICK1, Robert HOLZ2, Galina WIND3, Nandana AMARASINGHE3, Steve DUTCHER2, Andrew HEIDINGER4
1NASA Goddard Space Flight Center, United States, 2University of Wisconsin, United States, 3Science Systems and Applications, Inc., United States, 4National Oceanic and Atmospheric Administration, United States |
| AS41-A002 |
Cloud and Aerosol Detection Using Spectral, Spatial and Temporal Information from Passive Satellite Instruments |
Chenxi WANG1,2#+, Yingxi SHI3, Yihan FANG4, Clark ZHANG5, Ryan SONG6, Kerry MEYER2, Steven PLATNICK2
1Goddard Earth Sciences Technology and Research (GESTAR) II, United States, 2NASA Goddard Space Flight Center, United States, 3University of Maryland, Baltimore County, United States, 4University of Maryland, College Park, United States, 5Vanderbilt University, United States, 6Carnegie Mellon University, United States |
| AS41-A006 |
Spectral Replacement Using Machine Learning Methods for Continuous Mapping of GEMS |
Yeeun LEE1+, Myoung Hwan AHN1#, Mina KANG1, Mijin EO1, Kyung-Jung MOON2
1Ewha Womans University, Korea, South, 2National Institute of Environmental Research, Korea, South |
| AS41-A007 |
Aerosol Products from the Pandora Asia Network |
Ukkyo JEONG1#+, Limseok CHANG2, Hyunkee HONG2, Hanlim LEE1, Si-Chee TSAY3
1Pukyong National University, Korea, South, 2National Institute of Environmental Research, Korea, South, 3NASA Goddard Space Flight Center, United States |
| AS41-A008 |
Spatial Gap-filling of Geostationary Satellite-derived PM10 and PM2.5 Concentrations by Combining Real-time Learning and Hybrid-random Forest and Regression Kriging |
Seohui PARK, Jungho IM#, Hyunyoung CHOI, Dongjin CHO+
Ulsan National Institute of Science and Technology, Korea, South |
| AS41-A009 |
Investigation of Atmospheric Cloud Characteristics Over Western-Indian Region Using Ground-based Lidar, Satellite, and Reanalysis Datasets |
Som Kumar SHARMA1#+, Dharmendra KAMAT1, Prashant KUMAR2, Sourita SAHA3
1Physical Research Laboratory, India, 2Space Application Center, India, 3University of California, United States |
| AS41-A010 |
Clouds Induced Modulations of the Atmospheric Processes |
Som Kumar SHARMA#+, Dharmendra KAMAT
Physical Research Laboratory, India |
| AS41-A011 |
Automatic Smoke Plume and Wildfire Instance Tracking Across Scenes from Multiple Sensors |
Michael GARAY#+, Olga KALASHNIKOVA, Nicholas LAHAYE, Kyongsik YUN, Huikyo LEE
California Institute of Technology, United States |
| AS41-A012 |
Working Towards Dark Target Aerosol Product Synergy Among Geo and Leo Sensors |
Yingxi SHI1#+, Shana MATTOO2,3, Pawan GUPTA3, Lorraine REMER1,4, Virginia SAWYER3, Yaping ZHOU1
1University of Maryland, Baltimore County, United States, 2NASA Science Systems and Applications, Inc., United States, 3NASA Goddard Space Flight Center, United States, 4Airphoton LLC, United States |
| AS41-A013 |
The NASA TEMPO Mission: Revolutionary Air Pollution Observations Over North America from Geostationary Orbit |
Aaron NAEGER1,2#+, Michael NEWCHURCH3, Xiong LIU4, Kelly CHANCE5
1NASA / University of Alabama in Huntsville, United States, 2National Aeronautics and Space Administration, United States, 3University of Alabama in Huntsville, United States, 4Harvard University, United States, 5Center for Astrophysics | Harvard & Smithsonian, United States |
| AS42 Weather Radar Networks And Their Applications For High-Impact Weather Observations and Warnings |
| Abstract ID |
Abstract Title |
Authors |
| AS42-A005 |
The Capability of X-band Radar for Diagnosing the Trigger and Developing Convective Rainbands in the Gap Area of a C-band and S-band Radar Network |
Yabin GOU1#+, Haonan CHEN2
1Hangzhou Meteorological Bureau, China, 2Colorado State University, United States |
| AS42-A015 |
Application of Polarimetric Variables as Leading Indicators for Heavy Rain with Apparent Rotational Signature |
Chi-June JUNG+, Ben Jong-Dao JOU#
National Taiwan University, Taiwan |
| AS42-A001 |
Explainable AI for Polarimetric Radar Rainfall Mapping |
Haonan CHEN#+
Colorado State University, United States |
| AS42-A011 |
Precipitation Structures and Convective Characteristics of MCSs Associated with Different Large-scale Circulations Over Southern China |
Hao CHEN1#+, Weixin XU1, Jiaolan FU2, Nana LIU3, Jianhua SUN4, Lejian ZHANG5
1Sun Yat-sen University, China, 2National Meteorological Center of China Meteorological Administration, China, 3University of California, United States, 4Chinese Academy of Sciences, China, 5Meteorological Detection Center of China Meteorological Administration, China |
| AS42-A009 |
Comparison of Microphysical Characteristics of Warm-sector and Frontal Heavy Rainfall During Pre-summer Rainy Season in South China |
Xiantong LIU#+
Guangzhou Institute of Tropical and Marine Meteorology, China Meteorological Administration, China |
| AS42-A012 |
Early Detection of Rapidly Developing Convective Echoes Using a Ka-band Radar |
Rie NAKAZAWA1, Taro SHINODA1#+, Tadayasu OHIGASHI2, Kosei YAMAGUCHI3, Haruya MINDA1, Moeto KYUSHIMA1, Kazuhisa TSUBOKI1, Eiichi NAKAKITA3
1Nagoya University, Japan, 2National Research Institute for Earth Science and Disaster Resilience, Japan, 3Kyoto University, Japan |
| AS42-A013 |
Variation Characteristics of Radar Parameters Based on Three X-band Dual-polarization Phased Array Radars During Hail Suppression Experiment in Southwestern China |
Hui WANG#+
Weather Modification Center of the China Meteorological Administration, China |
| AS42-A014 |
Different Types of Coastal Barrier Jet Associated with Landfalling Typhoon |
Yucheng KAO1+, Ben Jong-Dao JOU2#
1Central Weather Bureau, Taiwan, Taiwan, 2National Taiwan University, Taiwan |
| AS42-A021 |
Improving Short-term High-impact Weather Prediction by Assimilating Reflectivity Mosaics of China Next Generation Weather Radar Network |
Sheng CHEN1#+, Junjun HU2, Jinkai TAN3
1Northwest Institute of Eco-Environment and Resources, Chinese Academy of Sciences, Lanzhou 730000, China, China, 2Chinese Academy of Sciences, China, 3Sun Yat-sen University, China |
| AS42-A019 |
Investigating the Potential Interaction Between Updraft and Microphysical Processes Near the Dendritic Growth Layer |
Ji-Hye JUNG+, Kwonil KIM, Kyuhee SHIN, Gyu Won LEE#
Kyungpook National University, Korea, South |
| AS42-A018 |
Improved Combination of Different Disdrometers Data for Complete Drop Size Distribution |
Sanghun LIM1+, Wonbae BANG1, Kyuhee SHIN1, Kwonil KIM1, Viswanathan BRINGI2, Merhala THURAI2, Gyu Won LEE1#
1Kyungpook National University, Korea, South, 2Colorado State University, United States |
| AS42-A022 |
Microphysical Responses of Snow Clouds to Kelvin-Helmholtz Wave During ICE-POP 2018 |
Kwonil KIM1, Chia-Lun TSAI2, Gyu Won LEE1#+
1Kyungpook National University, Korea, South, 2Chinese Culture University, Taiwan |
| AS42-A016 |
Microphysics of Heavy Rainfall Observed During the Prediction of Rainfall Extremes Campaign In the Pacific (PRECIP) 2022 |
Michael BELL#+
Colorado State University, United States |
| AS42-A017 |
Beam Blocking Mitigation of X-band Radar Data and its Application for QPE Improvement of S-band Radar Network |
Daehyung LEE1, Choeng-Lyong LEE1, SeungWon BAEK1#+, Geunsu LYU1, Wonbae BANG1, Park HONG-MOK1, Alexander RYZHKOV2, Gyu Won LEE1
1Kyungpook National University, Korea, South, 2NOAA/OAR/National Severe Storms Laboratory, United States |
| AS42-A020 |
The Airborne Phased Array Radar (APAR) Observing Simulator (AOS) |
Wen-Chau LEE#+, Bradley KLOTZ, Jothiram VIVEKANANDAN
National Center for Atmospheric Research, United States |
| AS42-A023 |
Airborne Phased Array Radar (APAR): The Next Generation of Airborne Polarimetric Doppler Weather Radar |
Everette JOSEPH, Wen-Chau LEE#+, Scott MCINTOSH, Krista LAURSEN, Angela RICHARDSON
National Center for Atmospheric Research, United States |
| AS43 Application of Data-driven and Machine Learning Approaches in Disaster Risk Reduction and Mitigation |
| Abstract ID |
Abstract Title |
Authors |
| AS43-A001 |
Retrieving the Atmospheric Motion Vectors from the Geostationary Satellite Images by Using the Convolutional Neural Network |
Renge ZHOU#+, Keyi CHEN
Chengdu University of Information Technology, China |
| AS43-A017 |
Verification of Improved Analog Ensemble Methods for Forecasting Extreme Temperature and Wind Speed in Beijing |
Cui HAO#+
Beijing Meteorological Observatory, Beijing, China |
| AS43-A004 |
Enhancing Typhoon Precipitation Nowcasting via Spatial and Temporal Difference in Deep Learning |
Hongyi YAO#+, Ji CHEN
The University of Hong Kong, Hong Kong SAR |
| AS43-A005 |
Data-driven Machine Learning Model for the Prediction of Pacific Sea Surface Temperature Prediction |
John Chien-Han TSENG1#+, Bo-An TSAI2, Kaoshen CHUNG2
1Central Weather Bureau, Taiwan, 2National Central University, Taiwan |
| AS43-A006 |
Application of ConvLSTM and Optical Flow Method Integration in Extreme Precipitation Nowcasting |
Hongxu ZHU#+, Ji CHEN
The University of Hong Kong, Hong Kong SAR |
| AS43-A007 |
Hybrid Hydrodynamic-machine Learning Modeling-based Flood Susceptibility Analysis Under Climate Change |
Weifeng WU+, Chia-Jeng CHEN#
National Chung Hsing University, Taiwan |
| AS43-A008 |
A Comparative Study on Rainfall Nowcasting Using Deep Learning Methods |
Xianqi JIANG+, Ji CHEN#
The University of Hong Kong, Hong Kong SAR |
| AS43-A009 |
Application of Machine Learning in Predicting Current and Future Climate Extremes in China |
Kelvin NG1#+, Gregor C. LECKEBUSCH1, Kevin HODGES2
1University of Birmingham, United Kingdom, 2University of Reading, United Kingdom |
| AS43-A010 |
On the Prediction of Water Level in the Urban Waterlogging Area Using Deep Learning Approach |
Xiefei ZHI#+
Nanjing University of Information Science & Technology, China |
| AS43-A012 |
Variation Characteristics and Attribution Analysis of Tropical Cyclone Compound Floods Derived from Observations in Shenzhen, China |
Jingru LIU1,2#+, Zhan TIAN2, Steven DOBBIE3, Andrew ROSS3, Laixiang SUN4, Qinghua YE5
1University of Leeds; Southern University of Science and Technology, China, 2Southern University of Science and Technology, China, 3University of Leeds, United Kingdom, 4University of Maryland, United States, 5Deltares, Netherlands |
| AS43-A015 |
Revolutionizing Earth Science with Generalized AI Models |
Rahul RAMACHANDRAN1#+, Tsengdar LEE2, Raghu GANTI3
1NASA Marshall Space Flight Center, United States, 2NASA Headquarters, United States, 3IBM Research, United States |
| AS43-A016 |
Whether Raises the Embankment is Enough for Future Climate Change - A Study to Predict River Water Level in Coastal Basins Using a Hybrid Machine Learning Model Framework |
Shaoxu ZHENG1,2#+, Zhan TIAN2, Yingping ZHAO1, Qian KE3
1Pengcheng Laboratory, China, 2Southern University of Science and Technology, China, 3Erasmus University Rotterdam, Netherlands |
| AS44 Atmospheric Nitrogen-containing Organic Compounds: Sources, Processes, and Impacts |
| Abstract ID |
Abstract Title |
Authors |
| AS44-A001 |
Atmospheric Contributions of Water-soluble and Water-insoluble Nitrogen and Phosphorus Species to the Southern East China Sea |
Hung-Yu CHEN#+, Meng-Lun CHEN
National Taiwan Ocean University, Taiwan |
| AS44-A002 |
How Does the Chemistry at Environmental Surfaces Affect the Formation of Nitrogen Containing Organic Compounds? |
Sasho GLIGOROVSKI#+
Chinese Academy of Sciences, China |
| AS44-A003 |
Particulate Amines and the Large Contributions from Anthropogenic Sources at a Coastal Area in Northern China in Winter |
Xinfeng WANG1#+, Zhiyi LIU1, Min LI1, Yiheng LIANG2, Yueru JIANG1, Jing CHEN1, Jiangshan MU1, Yujiao ZHU1, Likun XUE1
1Shandong University, China, 2ETH Zürich, Switzerland |
| AS44-A004 |
Dissecting the Contributions of Organic Nitrogen Aerosols to Global Atmospheric Nitrogen Deposition and Implications for Ecosystems |
Yumin LI1,2+, Tzung-May FU1#, Jian Zhen YU2, Xu YU2, Qi CHEN3, Ruqian MIAO3, Yang ZHOU 4, Aoxing ZHANG1, Jianhuai YE1, Xin YANG1, Shu TAO1, Hongbin LIU2, Weiqi YAO1
1Southern University of Science and Technology, China, 2The Hong Kong University of Science and Technology, Hong Kong SAR, 3Peking University, China, 4Ocean University of China, China |
| AS44-A006 |
Nitrogen-containing Compounds Enhance Light Absorption of Aromatic-derived Brown Carbon |
Zhaomin YANG+, Lin DU#
Shandong University, China |
| AS44-A008 |
Abundant Nitrogenous Secondary Organic Aerosol Formation Accelerated by Cloud Processing |
Zhe LIU#+, Jianmin CHEN
Fudan University, China |
| AS44-A010 |
The Impact of Clean Heating Reform on the Size Distribution of Nitrated Phenols and its Association with Biomarkers of Homemakers in the Fenwei Plain, China |
Rong FENG+, Hongmei XU#
Xi'an Jiaotong University, China |
| AS44-A011 |
Modeling the Regional Nitrogen Cycle in the Atmosphere and its Response to the Future Emission Control Strategy |
Qi FAN#+
Sun Yat-sen University, China |
| AS44-A012 |
Saturated Nitrogenated Organics Observed in Wintertime Beijing Aerosol |
Theodore K. KOENIG#+, Yanli GE, Xi CHENG, Gaoyuan WEI, Yan ZHENG, Chong ZHANG, Zhen CHENG, Sihua LU, Limin ZENG, Chunxiang YE, Jing SHANG, Qi CHEN
Peking University, China |
| AS44-A014 |
Highly Oxygenated Organic Molecules Produced by Photooxidation of Aromatic Compounds Under Various NOx Conditions |
Xi CHENG1+, Qi CHEN1#, Yong Jie LI2, Yan ZHENG1, Keren LIAO1
1Peking University, China, 2University of Macau, China |
| AS44-A015 |
Optical Properties, Chemical Composition and Photooxidation of Atmospheric Nitrogen-containing Organic Aerosols |
Ru-Jin HUANG#+
Chinese Academy of Sciences, China |
| AS44-A016 |
Source Apportionment of Atmospheric Organic Nitrogen Aerosols at a Suburban Site in Hong Kong |
Jinjian LI1+, Xu YU2, Shan WANG2, Yuk Ying CHENG2, Hanzhe CHEN2, Jianzhen YU2#
1Guangzhou HKUST Fok Ying Tung Research Institute, China, 2The Hong Kong University of Science and Technology, Hong Kong SAR |
| AS44-A020 |
Formation and Photochemical Aging of Secondary Organic Aerosols from NO3 Oxidation of Phenolic Compounds |
Hongru SHEN1+, Rongrong WU2, Quanfu HE2, Hui WANG2, Yarê BAKER2, Sören ZORN2, Hendrik FUCHS2, Thomas MENTEL2, Defeng ZHAO1#
1Fudan University, China, 2Forschungszentrum Jülich, Germany |
| AS44-A017 |
Molecular Characteristics and Formation Pathways of Particulate Organic Nitrates During Winter and Summer in Urban Beijing |
Yan ZHENG+, Qi CHEN#, Yanli GE, Xi CHENG, Theodore K. KOENIG, Gaoyuan WEI, Xiaodi SHI, Zhen CHENG, Xinghua QIU, Shiyi CHEN
Peking University, China |
| AS44-A018 |
Organic Nitrates and Their Contribution to Secondary Aerosol Formation Over China’s Megacites |
Wei NIE#+, Chao YAN, Yuliang LIU, Aijun DING
Nanjing University, China |
| AS44-A019 |
Optical Properties and Potential Sources of Brown Carbon in the Seoul Metropolitan Area |
Yanfang CHEN, Hwajin KIM#+
Seoul National University, Korea, South |
| AS45 Interaction of Atmospheric Composition and the Asian Monsoon |
| Abstract ID |
Abstract Title |
Authors |
| AS45-A001 |
Aerosol Compositions in Three Urban Areas in Taiwan During 2016-2021 |
Shih-Chun Candice LUNG1#+, Tzu-Yao Julia WEN1, Chia-Wei LEE2, Li-Te CHANG3
1Academia Sinica, Taiwan, 2National Kaohsiung University of Science and Technology, Taiwan, 3Feng Chia University, Taiwan |
| AS45-A004 |
Intraseasonal and Interannual Variability of the Asian Summer Monsoon Transport of CO and Aerosols to the Upper Troposphere and Implications for Global Atmospheric Composition |
Mian CHIN1#+, Huisheng BIAN2, Qian TAN3, Ghassan TAHA4, Peter COLARCO5, Paul A. NEWMAN1
1NASA Goddard Space Flight Center, United States, 2University of Maryland, Baltimore County, United States, 3Bay Area Environmental Research Institute, United States, 4Morgan State University, United States, 5National Aeronautics and Space Administration, United States |
| AS45-A003 |
Long-term Effects of Siberian Wildfire on Vertical Distributions of Hydrocarbons in UTLS Over East-Asia |
Donghee LEE1+, Ja-Ho KOO1#, Patrick SHEESE2, Kaley WALKER2
1Yonsei University, Korea, South, 2University of Toronto, Canada |
| AS45-A005 |
Tropospheric Ozone Responses to Reductions in Aviation NOx Emissions During COVID-19 Lockdowns |
Qi RAN1#+, Shao-Yi LEE2, Wenjie DONG1
1Sun Yat-sen University, China, 2Kyoto University, Japan |
| AS45-A006 |
Footprints of El Niño and La Niña on the Particulate Matter Evolution Over Subtropical Island Taiwan |
Yen-Ta FU1+, Ming-Cheng YEN1#, Neng-Huei LIN1, Hai BUI-MANH1, Cheng-Chih LIN2, Jia-Yuh YU1, Chi-Ming PENG3, Duc-Tu DINH4
1National Central University, Taiwan, 2Air Force Institute of Technology, Taiwan, 3WeatherRisk Explore Inc., Taiwan, 4Vietnam Meteorological and Hydrological Administration, Viet Nam |
| AS45-A008 |
Atmospheric Ozone and CO Measurements by FTIR at Koror, Palau (7.34°N, 134.47°E) |
Xiaoyu SUN1#+, Mathias PALM2, Justus NOTHOLT2, Katrin MUELLER3
1University of Bremen, Institute of Environmental Physics, Germany, 2University of Bremen, Germany, 3Helmholtz Centre for Polar and Marine Research, Germany |
| AS45-A009 |
The Asian Summer Monsoon Chemical and Climate Impacts Project (ACCLIP) |
Laura L. PAN1#+, Paul A. NEWMAN2, Elliot ATLAS3, Troy THORNBERRY4, Bill RANDEL1, Brian TOON5
1National Center for Atmospheric Research, United States, 2NASA Goddard Space Flight Center, United States, 3University of Miami, United States, 4NOAA Chemical Sciences Laboratory, United States, 5University of Colorado at Boulder, United States |
| AS45-A010 |
Aerosol Perturbation in the UTLS Region Over the Tibetan Plateau |
Dan LI1#+, Janchun BIAN2, Zhixuan BAI2
1Institute of Atmospheric Physics, Chinese Academy of Sciences, China, 2Chinese Academy of Sciences, China |
| AS45-A011 |
Using a Ground-based Spectrometer, Satellite Data, and Atmospheric Model to Understand Biases in Southeast Asia Air Quality |
Fernando SANTOS1#+, Santo V. SALINAS1, Li TAN1, Peng YUAN SNG1, Efthymia PAVLIDOU2, K. Emma KNOWLAND3
1National University of Singapore, Singapore, 2Meteorological Service Singapore, Singapore, 3Universities Space Research Association, United States |
| AS45-A014 |
Trend and Sources of Atmospheric Fine Particulate Matter in Recent Years in China |
Mei ZHENG#+, Xiaomeng LIU, Yaxin XIANG, Yue LIU, Tianle ZHANG
Peking University, China |
| AS45-A016 |
The Decline of the Winter Cloudy Days Over China Under Global Warming |
Hui TAN#+, Zhiwei ZHU
Nanjing University of Information Science & Technology, China |
| AS45-A017 |
Anthropogenic vs. Biogenic Secondary Organic Aerosols in a Warm and Humid Tropical Urban Environment |
Hyoungmook PAK1#+, Bao Ngoc THAI1, Santo V. SALINAS1, Simon O'MEARA2, Liya YU1
1National University of Singapore, Singapore, 2National Centre for Atmospheric Science, United Kingdom |
| AS45-A018 |
The GOSAT-GW Satellite Mission: Potential Roles in the Asia-Oceania Region |
Hiroshi TANIMOTO1#+, Tsuneo MATSUNAGA1, Takafumi SUGITA1, Hisashi YASHIRO1, Isamu MORINO1, Makoto SAITO1, Hirofumi OHYAMA1, Satoshi INOMATA1, Kohei IKEDA1, Yu SOMEYA1, Tamaki FUJINAWA1, Yukio YOSHIDA1, Yosuke YAMASHITA1, Astrid MUELLER1, Matthias FREY1, Hyunkwang LIM1, Hao XU1, Tazu SAEKI1, Nobuko SAIGUSA1, Yugo KANAYA2, Takashi SEKIYA2, Prabir K. PATRA2,3, Masayuki TAKIGAWA2, Masahiro YAMAGUCHI2, Jagat S. H. BISHT2, Yasuko KASAI4, Tomohiro SATO5, Ayano NAKAMURA5
1National Institute for Environmental Studies, Japan, 2Japan Agency for Marine-Earth Science and Technology, Japan, 3Tohoku University, Japan, 4Tokyo Instutute of Technology, Japan, 5National Institute of Information and Communications Technology, Japan |
| AS46 Aviation Meteorology |
| Abstract ID |
Abstract Title |
Authors |
| AS46-A002 |
Sensitivity of YSU Modified Scheme to Fog Simulation Under Different Physical Parameterized Combinations |
Bingui WU1+, Tian MENG2#
1Tianjin Institute of Meteorological Science, China, 2Tianjin Institute of Meteorological Sciences, China |
| AS46-A001 |
Influence of Bohai Sea-effect on Fog Formation in Western Coastal Zone Under the Background of Cold Back-flow in Northeast China |
Tian MENG1+, Bingui WU2#
1Tianjin Institute of Meteorological Sciences, China, 2Tianjin Institute of Meteorological Science, China |
| AS46-A003 |
Statistical Analysis of Aviation Turbulence in Middle-upper Troposphere Over Japan |
Yoshiaki MIYAMOTO1#+, Ayako MATSUMOTO2, Soshi ITO1
1Keio University, Japan, 2ANA HOLDINGS, Japan |
| AS46-A004 |
Using High Resolution Global Climate Models to Project Trends in Clear Air Turbulence Over the North Atlantic |
Isabel SMITH1#+, Paul WILLIAMS1, Reinhard SCHIEMANN2,1
1University of Reading, United Kingdom, 2National Centre for Atmospheric Science, United Kingdom |
| AS46-A008 |
Regional Real-time Weather Prediction System Over Incheon International Airport Using WRF Model |
Yujeong DO+, Hyeon-Ji LEE, Kyo-Sun LIM#
Kyungpook National University, Korea, South |
| AS46-A007 |
Numerical Study of Near-cloud Turbulence Encounters Associated with Convective Clouds Over East Asia |
Soo-Hyun KIM+, Jung-Hoon KIM#
Seoul National University, Korea, South |
| AS46-A009 |
Seasonal Variation of Environmental Fields of Aviation Turbulence in the Upper Level Around Japan |
Soshi ITO1#+, Yoshiaki MIYAMOTO1, Yoshiyuki KAJIKAWA2
1Keio University, Japan, 2RIKEN Advanced Institute for Computational Science, Japan |
| AS46-A005 |
Multi-model-based In-flight Icing Forecast Based on the Simplified Forecast Icing Potential (SFIP) Algorithm |
Eun-Tae KIM#+, Jung-Hoon KIM
Seoul National University, Korea, South |
| AS46-A006 |
Atmospheric Turbulence Estimated from High-resolution Operational Radiosonde Data and Comparison with In-situ Flight Observations |
Han-Chang KO1+, Hye-Yeong CHUN1#, Jung-Hoon KIM2, Robert SHARMAN3
1Yonsei University, Korea, South, 2Seoul National University, Korea, South, 3National Center for Atmospheric Research, United States |
| AS46-A010 |
Performance Comparison of Probabilistic Turbulence Forecasts Using the Two Operational NWP Models of KMA |
Dan-Bi LEE1+, Jung-Hoon KIM1#, Hye-Yeong CHUN2
1Seoul National University, Korea, South, 2Yonsei University, Korea, South |
| AS46-A011 |
Determining the Spatial Distribution of Turbulence Near Thunderstorms |
Todd LANE1,2#+, Stacey HITCHCOCK1, Robert SHARMAN3, Stanley TRIER3, Wiebke DEIERLING3, Cameron HOMEYER4
1The University of Melbourne, Australia, 2ARC Centre of Excellence for Climate Extremes, Australia, 3National Center for Atmospheric Research, United States, 4University of Oklahoma, United States |
| AS46-A012 |
Development of Model Output Statistics to Support Flight Operations Around the Airports in South Korea |
Jeonghoe KIM+, Jung-Hoon KIM#
Seoul National University, Korea, South |
| AS46-A013 |
Evaluation of Aviation Convective Index for Deep Convective Area Using the Global Unified Model of the Korean Meteorological Administration |
Yi June PARK+, Jung-Hoon KIM#
Seoul National University, Korea, South |
| AS46-A014 |
Stochastic Ensemble System for Airport Probabilistic Forecasting |
Ui-Yong BYUN1#+, Eun-Chul CHANG1, Sang-Hun PARK2, Hye-Yeong CHUN2, Jung-Hoon KIM3
1Kongju National University, Korea, South, 2Yonsei University, Korea, South, 3Seoul National University, Korea, South |
| AS46-A015 |
Statistical Analysis on the Estimations of Solid Hydrometeors Growth Zones and Their Weather Conditions Using Radar Spectrum Width |
Sung-Ho SUH1#+, Woonseon JUNG2, Hong-il KIM1, Eun-Ho CHOI1, Jung-Hoon KIM3
1Korea Aerospace Research Institute, Korea, South, 2National Institute of Meteorological Sciences, Korea, South, 3Seoul National University, Korea, South |
| AS46-A016 |
Comparison of Different Estimation Techniques of Turbulent Energy Dissipation Rate from Doppler Lidar Measurements |
SeungWon BAEK1+, Kwonil KIM1, Jung-Hoon KIM2, Gyu Won LEE1#
1Kyungpook National University, Korea, South, 2Seoul National University, Korea, South |
| AS46-A017 |
A Study of Sea Fog Event Over the Yellow Sea Using the High-resolution Modeling with Improved Initial Surface Conditions |
Jae-Sik MIN#+, Jung-Hoon KIM
Seoul National University, Korea, South |
| AS47 Global Precipitation Measurement and Future Missions |
| Abstract ID |
Abstract Title |
Authors |
| AS47-A001 |
Changes to the IMERG Algorithm from V06 to V07 |
George J. HUFFMAN1, David BOLVIN2, Eric NELKIN2, Robert JOYCE2, Jackson TAN3,1#+
1NASA Goddard Space Flight Center, United States, 2Science Systems and Applications, Inc., United States, 3University of Maryland, Baltimore County, United States |
| AS47-A002 |
Early Results from IMERG V07 |
Jackson TAN1,2#+, George J. HUFFMAN2, David BOLVIN3, Eric NELKIN3, Robert JOYCE3
1University of Maryland, Baltimore County, United States, 2NASA Goddard Space Flight Center, United States, 3Science Systems and Applications, Inc., United States |
| AS47-A003 |
NASA GPM Status and Future Activities |
George J. HUFFMAN1#+, Mircea GRECU2,1, Christian KUMMEROW3, Stephen LANG1, Adrian LOFTUS1, William OLSON4,1, Erich STOCKER1
1NASA Goddard Space Flight Center, United States, 2Morgan State University, United States, 3Colorado State University, United States, 4University of Maryland, Baltimore County, United States |
| AS47-A004 |
GPCP Version 3.2 Products and Results |
George J. HUFFMAN1#+, Ali BEHRANGI2, Robert ADLER3, David BOLVIN4, Eric NELKIN4, Guojun GU3, Mohammad Reza EHSANI2
1NASA Goddard Space Flight Center, United States, 2University of Arizona, United States, 3University of Maryland, United States, 4Science Systems and Applications, Inc., United States |
| AS47-A005 |
Quantitative Evaluation of Graupel Shape Observed by Particle Imaging Radiosonde "Rainscope" in Baiu Convective Cloud |
Yurika HARA1+, Kenji SUZUKI1#, Tetsuya KAWANO2
1Yamaguchi University, Japan, 2Kyushu University, Japan |
| AS47-A006 |
Advances and Applications of Satellite Data Assimilation of Clouds, Precipitation, and the Ocean |
Takemasa MIYOSHI1,2#+, Shun OHISHI1, Jianyu LIANG1, Rakesh Teja KONDURU1, Shigenori OTSUKA1, Shunji KOTSUKI3, Koji TERASAKI4, Atsushi OKAZAKI5, Hirofumi TOMITA6, Ying-Wen CHEN7, Kaya KANEMARU8, Masaki SATOH7, Hisashi YASHIRO9, Kozo OKAMOTO10, Eugenia KALNAY2, Takuji KUBOTA11, Misako KACHI11
1RIKEN Center for Computational Science, Japan, 2University of Maryland, United States, 3Chiba University, Japan, 4Meteorological Research Institute, Japan, 5Hirosaki University, Japan, 6RIKEN Advanced Institute for Computational Science, Japan, 7The University of Tokyo, Japan, 8National Institute of Information and Communications Technology, Japan, 9National Institute for Environmental Studies, Japan, 10Japan Meteorological Agency, Japan, 11Japan Aerospace Exploration Agency, Japan |
| AS47-A007 |
Validation of the GPM/DPR Instantaneous Rain Rate Estimates by Using High-temporal-resolution Rain Gauge Dataset |
Shinta SETO1#+, Nobuyuki UTSUMI2
1Nagasaki University, Japan, 2Kyoto University of Advanced Science, Japan |
| AS47-A008 |
Global Precipitation Measurement (GPM) Mission in Japan and Future Japanese Precipitation Measuring Mission (PMM) |
Takuji KUBOTA1#+, Moeka YAMAJI1, Kosuke YAMAMOTO1, Nobuhiro TAKAHASHI2, Yukari TAKAYABU3
1Japan Aerospace Exploration Agency, Japan, 2Nagoya University, Japan, 3The University of Tokyo, Japan |
| AS47-A009 |
Investigation of Moving Vector Calculation at High Latitudes Using NEXRA Data for Polar Extension of the GSMaP PMW-IR Combined Algorithm |
Munehisa YAMAMOTO1#+, Takuji KUBOTA1, Ying-Wen CHEN2
1Japan Aerospace Exploration Agency, Japan, 2The University of Tokyo, Japan |
| AS47-A011 |
Analysis of the Environment and Precipitation Characteristics of Widespread Extreme Rainfall Events During the Akisame Season |
Yukari TAKAYABU#+, Aiko NARITA
The University of Tokyo, Japan |
| AS47-A013 |
What Do the Latest Global Oceanic Precipitation Estimates from GPM V7 and GPCP V3.2 Products Tell Us? |
Ali BEHRANGI1#+, Yang SONG2
1University of Arizona, United States, 2Hohai University, China |
| AS47-A012 |
Event-based Extreme Precipitation Characteristics in the Tropics |
Yaping ZHOU1#+, Kuan-Man XU2
1University of Maryland, Baltimore County, United States, 2NASA Langley Research Center, United States |
| AS47-A014 |
Intercomparisons of the Latest Precipitation Estimates from Satellite, Reanalysis and Merged Products Over the Alaska |
Yang SONG1,2#+, Ali BEHRANGI2, Bin YONG1,3
1Hohai University, China, 2University of Arizona, United States, 3State Key Laboratory of Hydrology-Water Resources and Hydraulic Engineering, China |
| AS47-A015 |
Precipitation Characteristics of the Tropical Cyclone Over the Arabian Sea |
Amit KUMAR1#+, Atul Kumar SRIVASTAVA1, Manoj K. SRIVASTAVA2
1Indian Institute of Tropical Meteorology, India, 2Banaras Hindu University, India |
| AS51 Understanding and Predicting Precipitation Extremes Through Integrative Analyses of Observation, Numerical Models, and Deep Learning |
| Abstract ID |
Abstract Title |
Authors |
| AS51-A001 |
Robust Expansion of Extreme Midlatitude Storms Under Global Warming |
Ji NIE1#+, Panxi DAI2
1Peking University, China, 2Zhejiang University, China |
| AS51-A004 |
Evaluation of a Scale-similarity Subgrid-scale Closure in Idealized Squall Line Simulations at Kilometer-scale Resolutions |
Shiwei SUN1#+, Bowen ZHOU2, Kefeng ZHU3, Ming XUE4
1Nanjing Joint Institute for Atmospheric Sciences, Chinese Academy of Meteorological Sciences, China, 2Nanjing University, China, 3Chinese Academy of Meteorological Sciences, China, 4The University of Oklahoma, United States |
| AS51-A003 |
Is the 2021 Peninsular Malaysia Flood Truly a ‘Once-in-a-century’ Event? |
Jingyu WANG#+, Luojie DONG, Edward PARK, Xianfeng WANG
Nanyang Technological University, Singapore |
| AS51-A009 |
Effects of Upshear Lifted Convection on Vortex Alignment of Super Typhoon Rammasun (2014) Under Sheared Environment |
Yecheng FENG+, Liguang WU#
Fudan University, China |
| AS51-A002 |
Constraining Global to Continental Future Extreme Precipitation Intensification |
Seungmok PAIK1+, Soon-Il AN1#, Seung-Ki MIN2, Andrew KING3, Soong-Ki KIM1
1Yonsei University, Korea, South, 2Pohang University of Science and Technology, Korea, South, 3The University of Melbourne, Australia |
| AS51-A005 |
The Impact of Marine Boundary Layer Jet on Extreme Rainfall in South China |
Yu DU#+
Sun Yat-sen University, China |
| AS51-A006 |
Improvement of a Cloud Microphysics Scheme and its Advantage in the Precipitation Simulation Along the Sichuan-Tibet Railway |
Chunsong LU1#+, Xiaoqi XU2, Zhiwei HENG3
1Nanjing University of Information Science & Technology, China, 2Nanjing Joint Institute for Atmospheric Sciences, China, 3Chengdu Institute of Plateau Meteorology, China |
| AS51-A007 |
Evolution of Precipitation Triple Oxygen Isotopes During Monsoon Cold Surges in Singapore: Implications for Evaluating Tropical Convection |
Yilin ZHANG#+, Shaoneng HE, Bernie WEE, Xianfeng WANG
Nanyang Technological University, Singapore |
| AS51-A008 |
Impacts of Coastal Terrain on Warm-sector Heavy-rain-producing MCSs in Southern China |
Murong ZHANG1, Kristen RASMUSSEN2, Zhiyong MENG1#+, Yipeng HUANG3
1Peking University, China, 2Colorado State University, United States, 3Xiamen Meteorological Bureau, China |
| AS51-A013 |
The Tibetan Plateau Bridge: Influence of Tropic Convection on Extreme Precipitation Events in Eastern Asia |
Yimin LIU#+, Jilan JIANG, Tingting MA, Guoxiong WU
Chinese Academy of Sciences, China |
| AS51-A010 |
Numerical Simulation of Heavy Rainfall Events Over the Korean Peninsula During Summer of 2022 |
Sujeong CHO#+, Eun-Hee LEE, Keon-Hee CHO, Ji-Young HAN
Korea Institute of Atmospheric Prediction Systems, Korea, South |
| AS51-A011 |
Evaluation of the SMoothed Hybrid Sigma-pressure (SMH) Coordinate in KIM |
Hae-Jin KONG1#+, Ja-Rin PARK1, Suk-Jin CHOI2, Hyun NAM1
1Korea Institute of Atmospheric Prediction Systems, Korea, South, 2Gangneung-Wonju National University, Korea, South |
| AS51-A012 |
Correcting Sub-daily Satellite Precipitation Based on GRU and TrajGRU in Taiwan |
Hsiang-En TSOU+, Chia-Jeng CHEN#
National Chung Hsing University, Taiwan |
| AS51-A014 |
Impacts of the Topographical Factors on Hourly Extreme Precipitation – A Study in the Yangtze River Delta |
Yanhong GAO1#+, Li ZENG2, Zhaoyang LIU1
1Fudan University, China, 2Chinese Academy of Sciences, China |
| AS51-A015 |
Pseudo Seeder-feeder Mechanism in Orographic Precipitation in a Typhoon Environment and its Response to Global Warming |
Jianan CHEN#+, Xiaoming SHI
The Hong Kong University of Science and Technology, Hong Kong SAR |
| AS51-A016 |
Role of Aerosol Ice-nucleation Effect in the Development of the ‘21 7 Henan Extreme Precipitation |
Weishan WANG#+, Guoxing CHEN, Yijun ZHANG
Fudan University, China |
| AS51-A017 |
Super-Clausius–Clapeyron Scaling of Tropical Cyclone Rainfall at Urban Scales |
Xiaoming SHI#+
The Hong Kong University of Science and Technology, Hong Kong SAR |
| AS51-A019 |
Microphysical and Dynamical Characteristics of Convection in the 21·7 Henan Extremely Heavy Rainfall Event |
Kun ZHAO1#+, Gang CHEN2, Lu YINGHUI1, Zhe-Min TAN1, Ming XUE3
1Nanjing University, China, 2Nanjing Joint Institute for Atmospheric Sciences, China, 3The University of Oklahoma, United States |
| AS51-A021 |
Using Machine Learning to Analyze the Changes in Summer Extreme Precipitation in Southern China |
Bojun WANG+, Wei WEI#, Zejiang YIN
Sun Yat-sen University, China |
| AS52 Ionospheric Space Weather Monitoring and Forecasting |
| Abstract ID |
Abstract Title |
Authors |
| AS52-A016 |
Seismo-ionospheric Anomalies Before Assam Earthquakes (Mw = 6.0) Detected by GIMs and GPS-TEC |
Uma PANDEY#+, Javed MALIK, Onkar DIKSHIT, B. NAGARAJAN
Indian Institute of Technology Kanpur, India |
| AS52-A001 |
Driver of the Positive Ionospheric Storm Over South American Sector During 4 November 2021 |
Changzhi ZHAI#+
Hohai University, China |
| AS52-A002 |
Structure of Post-midnight Enhancements in Ionospheric Electron Density at Low Latitudes |
Libo LIU#+
Institute of Geology and Geophysics, Chinese Academy of Sciences, China |
| AS52-A003 |
An Additional Plasma Density Peak at Poleward of the Equatorial Ionization Anomaly Crests Observed by Swarm |
Chao XIONG#+, Yuyang HUANG
Wuhan University, China |
| AS52-A007 |
A Novel Hybrid Deep Learning Model for Predicting Ionospheric TEC Under Different Geomagnetic Conditions |
Han WU1+, Ling HUANG1#, Hongping ZHANG2, Dezhong CHEN2, Yidong LOU2, Bin MA1, Xu LIU1
1Guilin University of Technology, China, 2Wuhan University, China |
| AS52-A006 |
Ionospheric Irregularities Monitoring and its Impacts on Precise Point Positioning |
Wei LI1,2+, Shuli SONG1#
1Shanghai Astronomical Observatory, Chinese Academy and Sciences, China, 2State Grid Siji Location Service Co., Ltd., State Grid Communication Industry Group Co., Ltd, China |
| AS52-A008 |
Analysis of the BDGIM Performance in BDS Single Point Positioning |
Guangxing WANG1#+, Zhihao YIN2, Zhigang HU3
1China University of Geosciences, China, 2Mengxin Technology, China, 3Wuhan University, China |
| AS52-A011 |
A Comparison of NmF2 Derived from Nighttime OI 135.6nm Emission to Ionosonde Measurements |
Shixiang XUE, Chunhua JIANG#+
Wuhan University, China |
| AS52-A013 |
New Insights on the Equatorial Plasma Bubble(EPB) Morphology and Geomagnetic Storm Effects on EPBs Using GOLD Data |
Deepak KARAN1#+, Richard EASTES1, Carlos MARTINIS2, Robert DANIELL3, Stanley SOLOMON4, William MCCLINTOCK1
1University of Colorado Boulder, United States, 2Boston University, United States, 3Ionospheric Physics, United States, 4National Center for Atmospheric Research, United States |
| AS52-A014 |
On the Contribution of Plasmasphere to the TEC on the Ground |
Shigeto WATANABE#+
Hokkaido University, Japan |
| AS52-A015 |
Global IGS-3D Electron Density Model by Deep Learning |
Eun-Young JI1#+, Yong-Jae MOON1, Young-Sil KWAK2, Kangwoo YI1, JeongHeon KIM2
1Kyung Hee University, Korea, South, 2Korea Astronomy and Space Science Institute, Korea, South |
| AS52-A018 |
Estimation Model of Global Ionospheric Irregularities: An Artificial Intelligence Approach |
Penghao TIAN#+, Jianfei WU
University of Science and Technology of China, China |
| AS55 Environmental Impacts of Biomass Burning Pollution Over Southeast Asia |
| Abstract ID |
Abstract Title |
Authors |
| AS55-A003 |
Retrieving Rapid-evolving Smoke Absorption Using Critical Reflectance Methods with Geostationary Observations |
Yingxi SHI1#+, Roshan MISHRA1, Zhibo ZHANG1, Robert LEVY2, Lorraine REMER1,3, J. Vanderlei MARTINS1
1University of Maryland, Baltimore County, United States, 2NASA Goddard Space Flight Center, United States, 3Airphoton LLC, United States |
| AS55-A004 |
Future Biomass Burning Activities in Malaysia and Indonesia Based on the CORDEX-SEA Projections |
Aulia NISA'UL KHOIR1#+, Maggie OOI1, Liew JUNENG1, Jing Xiang CHUNG2, Alif AKBAR SYAFRIANNO3, Imron ADE RANGGA3
1Universiti Kebangsaan Malaysia, Malaysia, 2Universiti Malaysia Terengganu, Malaysia, 3Indonesian Agency for Meteorology, Climatology, and Geophysics, Indonesia |
| AS56 Biogenic VOCs: Emissions, Atmospheric Oxidation, and Impacts |
| Abstract ID |
Abstract Title |
Authors |
| AS56-A001 |
Impacts of Land Cover Changes on Biogenic Emission and its Contribution to Ozone and Secondary Organic Aerosol in China |
Ma JINLONG1#+, Hongliang ZHANG1, Peng WANG2
1Fudan University, China, 2The Hong Kong Polytechnic University, China |
| AS56-A002 |
Biogenic VOC Emissions from Urban and Agricultural Landscapes |
Alex GUENTHER#+, Jesus CAMPOS, Bee KITTITANANUVONG, Saewung KIM
University of California, Irvine, United States |
| AS56-A004 |
Biogenic Volatile Organic Compounds Emission Characterization and its Contribution to Ozone Formation in the Subtropical Region in South China |
Yanli ZHANG1#+, Xinming WANG2
1Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, China, 2Chinese Academy of Sciences, China |
| AS56-A011 |
Molecular Composition of Secondary Organic Aerosol from α-pinene Ozonolysis Affected by Relative Humidity |
Hao LUO+, Yindong GUO, Hongru SHEN, Defeng ZHAO#
Fudan University, China |
| AS56-A006 |
Rethink BVOC Emissions and Their Contributions to Air Quality in South China |
Peng WANG#+
Fudan University, China |
| AS56-A007 |
Effects of Temperature on Biogenic VOCs Emissions and its Contributions to Ozone Formation in Pearl River Delta |
Hao GUO1#+, Yanli ZHANG1, Xinming WANG2
1Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, China, 2Chinese Academy of Sciences, China |
| AS56-A008 |
Comprehensive Chemical Characterization of Gaseous I/SVOC Emissions from Heavy-duty Diesel Vehicles Using Two-dimensional Gas Chromatography Time-of-flight Mass Spectrometry |
Xiao HE#+
Shenzhen Univerisithy, China |
| AS56-A009 |
Formation of 2-methyltetrol and 2-methylglyceric Acid in the Northern Hemisphere from Marine Isoprene Emission |
Jie ZHANG1, Junyi LIU2, Minsu CHOI1, Xiang DING3, Mei ZHENG2, Qi YING1#+
1Texas A&M University, United States, 2Peking University, China, 3Chinese Academy of Sciences, China |
| AS56-A010 |
Highly Oxygenated Organic Molecules Formation in the Oxidation of Limonene by OH Radical: Significant Contribution of Hydrogen Abstraction Pathway |
Hao LUO1+, Luc VEREECKEN2, Hongru SHEN1, Sungah KANG2, Iida PULLINEN2, Mattias HALLQUIST3, Hendrik FUCHS2, Andreas WAHNER2, Astrid KIENDLER-SCHARR2, Thomas MENTEL2, Defeng ZHAO1#
1Fudan University, China, 2Forschungszentrum Jülich, Germany, 3University of Gothenburg, Sweden |
| AS56-A012 |
The Impact of Biogenic VOCs on Atmospheric Oxidation Capacity |
Hongliang ZHANG, Wenxuan YU#+
Fudan University, China |
| AS56-A013 |
Unexpected Significance of a Minor Reaction Pathway in Daytime Formation of Biogenic Highly Oxygenated Organic Compounds |
Hongru SHEN1+, Luc VEREECKEN2, Sungah KANG2, Iida PULLINEN2, Hendrik FUCHS2, Defeng ZHAO1#, Thomas MENTEL2
1Fudan University, China, 2Forschungszentrum Jülich, Germany |
| AS57 Progress and Challenge in Light Scattering and Radiative Transfer About Clouds and Aerosols |
| Abstract ID |
Abstract Title |
Authors |
| AS57-A001 |
Measurement of the Cloud Properties and the Cloud Evolution Process from Novel Satellites, the GCOM-C and the EarthCARE |
Takashi NAKAJIMA#+, Minrui WANG, Yu MATSUMOTO, Kanta SHIMIZU
Tokai University, Japan |
| AS57-A002 |
A Method to Retrieve the Refractive Indices and Mineral Components of Dust Aerosols from Satellite Infrared Hyperspectral Data |
Senyi KONG#+, Lei BI
Zhejiang University, China |
| AS57-A003 |
Sounding the Atmosphere from Space for Weather Applications – Progress and Challenges |
Jun LI#+
National Satellite Meteorological Center, China |
| AS57-A004 |
Assessment of the Inhomogeneity and Nonsphericity Effect of Internally Mixed Aerosols in the Chemical Weather Prediction Model |
Xuan WANG+, Lei BI#
Zhejiang University, China |
| AS57-A008 |
Characterization of the Size-resolved Morphology for Black Carbon Particles During Atmospheric Aging |
Yan PENG#+, Xiaofeng HUANG, Jing WEI, Ling-Yan HE
Peking University Shenzhen Graduate School, China |
| AS57-A007 |
Establishment of an Analytical Model for Remote Sensing of Typical Stratocumulus Cloud Profiles Under Various Precipitation and Entrainment Conditions |
Huazhe SHANG#+
Chinese Academy of Sciences, China |
| AS57-A010 |
Ice Cloud Synergy Retrieval Using Joint Passive Infrared and Microwave Instruments |
Chenxi WANG1,2#+, Jie GONG3, Kerry MEYER2, Steven PLATNICK2, Zhibo ZHANG4, Dong WU2
1Goddard Earth Sciences Technology and Research (GESTAR) II, United States, 2NASA Goddard Space Flight Center, United States, 3Universities Space Research Association, United States, 4University of Maryland, Baltimore County, United States |
| AS57-A014 |
A Precipitation Estimation Method by Considering Clouds Microphysical Parameters Based on Observations from Geostationary Satellite |
Dabin JI1#+, Husi LETU2, Jiancheng SHI2
1Aerospace Information Research Institute, Chinese Academy of Sciences, China, 2Chinese Academy of Sciences, China |
| AS57-A011 |
Derivation of Aerosol Parameters from Newly-launched Spaceborne Sensors |
Jian XU1#+, Lanlan RAO2, Adrian DOICU3, Zhuo ZHANG2, Chong SHI4, Husi LETU2, Yongmei WANG2, Entao SHI2
1National Space Science Center, Chinese Academy of Sciences, China, 2Chinese Academy of Sciences, China, 3German Aerospace Center, Germany, 4Aerospace Information Research Institute, Chinese Academy of Sciences, China |
| AS57-A013 |
Retrieval of Cloud Microphysical Properties from Himawari-8/AHI Infrared Channels and its Application in Surface Shortwave Downward Radiation Estimation in the Sunglint Region |
Gegen TANA1, Xu RI1, Chong SHI2#+, Run MA1, Husi LETU1, Jian XU3, Jiancheng SHI1
1Chinese Academy of Sciences, China, 2Aerospace Information Research Institute, Chinese Academy of Sciences, China, 3National Space Science Center, Chinese Academy of Sciences, China |
| AS57-A015 |
Particle and Single Scattering Database for Cross-mission Support of Particulate Matter Retrievals |
Ian ADAMS1#, Kwo-Sen KUO2,3+, Ines FENNI4, Robert SCHROM1, William OLSON1, George J. HUFFMAN1, Scott BRAUN1
1NASA Goddard Space Flight Center, United States, 2University of Maryland-College Park, United States, 3Bayesics, LLC, United States, 4NASA Jet Propulsion Laboratory, United States |
| AS57-A017 |
Recent Updates and Applications of the UNL-VRTM Remote Sensing Testbed |
Xiaoguang XU1#+, Jun WANG2
1University of Maryland, Baltimore County, United States, 2The University of Iowa, United States |
| AS57-A018 |
Linearization of Light Scattering Properties Using the Invar-iant-imbedding T-matrix and Physical-geometric Optics Methods |
Bingqiang SUN#+, Chenxu GAO, Dongbin LIANG
Fudan University, China |
| AS59 Mesoscale Meteorology and High-impact Weather |
| Abstract ID |
Abstract Title |
Authors |
| AS59-A003 |
Characteristics of Intracloud Lightning to Cloud-to-ground Lightning Ratio in Thunderstorms Over China |
Yushu REN#+, Weixin XU
Sun Yat-sen University, China |
| AS59-A015 |
Convection Initiation During the Meiyu Environment in the Yangtze-Huai River Basin of China |
Fan ZHANG#+
Chinese Academy of Meteorological Sciences, China |
| AS59-A004 |
A High-resolution Numerical Simulation of the “7.19” Extraordinary Heavy Rainfall in Henan Province Under Topographic Effect |
Xinmin WANG#+
Xiamen Key Laboratory of Straits Meteorology, China |
| AS59-A005 |
Processes of Colliding Cold Pools Derived from a 356-m High Shenzhen Met-Tower During an Extremely Heavy Rainfall Event |
Yu DU#+, Chuying MAI
Sun Yat-sen University, China |
| AS59-A006 |
The Role of Gravity Waves in the Asymmetric Development of Squall Lines |
Hongpei YANG+, Yu DU#
Sun Yat-sen University, China |
| AS59-A007 |
Impacts of Moisture on the Organizational Modes of Mesoscale Convective Systems Associated with Warm-sector Heavy Rainfall |
Sa LI1, Zhiyong MENG2#+
1Huaneng Clean Energy Research Institute, China, 2Peking University, China |
| AS59-A008 |
Contrasting Mesoscale Convective System Features of Two Successive Warm-sector Rainfall Episodes in Southeastern China: A Satellite Perspective |
Yipeng HUANG1+, Murong ZHANG2#
1Xiamen Meteorological Bureau, China, 2Xiamen University, China |
| AS59-A013 |
Impact of Boundary Layer Jets on Cold Pool Characteristics During the Pre-summer Rainy Season in South China |
Dong FU#+, Yu DU
Sun Yat-sen University, China |
| AS59-A010 |
Analysis of Environmental Field Characteristics of Convective Initiation Triggered by Thunderstorm Gust Fronts in Beijing Area |
Na HE1#+, Xiaoding YU2, Qinglan DING3, Xian XIAO2, Nan XING4, Ke LIU5
1Beijing Weather Forecast Center,Beijing Meteorological Service, China, 2China Meteorological Administration, China, 3Beijing Weather Forecast Center, China, 4Beijing Meteorological Service, China, 5North China Aviation Administration, China |
| AS59-A011 |
The Influence of Land–sea Contrast and Topography on the Diurnal Cycle of Precipitation in the Bay of Bengal |
Zijian CHEN+, Yu DU#
Sun Yat-sen University, China |
| AS59-A012 |
Climatology of Wavelike Banded Convective Activities in South China |
Xuan ZHOU+, Yu DU#, Junhong WEI
Sun Yat-sen University, China |
| AS59-A014 |
Using Polarimetric Radar Observations to Characterize First Echoes of Thunderstorms and Nonthunderstorms: A Comparative Study |
Chuanhong ZHAO1#+, Yijun ZHANG2
1Chengdu University of Information Technology, China, 2Fudan University, China |
| AS59-A016 |
Climatic Interactions Between Cold Surges and North Pacific Extratropical Cyclones—in the Perspective of Cold Surges |
Lan XIA#+, JIalin ZHANG, Yao HU
Yunnan University, China |
| AS59-A017 |
Linear Stability Analysis of a Tornado-like Vortex with Double Helical Structure Produce in a Vortex Simulator of National Defense Academy |
Toshihisa ITANO#+
National Defense Academy, Japan |
| AS59-A018 |
Simulation and Diagnosis of Interactions Across Scales in Frontal Convective Vortices During the Mei-yu Season in Taiwan |
Chung-Chieh WANG#+, Shin-Yi HUANG
National Taiwan Normal University, Taiwan |
| AS59-A019 |
Prediction Skill of WRF Cycling 3DVAR on Summer Extreme Rainfall Events in Thailand: A Case Study in Chi and Mun Basins During a Tropical Storm Event |
Thippawan THODSAN+, Kritanai TORSRI#, Rati SAWANGWATTANAPHAIBUN , Thakolpat KHAMPUENGSON, Pattarapoom PEANGTA, Apiwat FAIKRUA, Kanoksri SARINNAPAKORN
Ministry of Higher Education, Science, Research and Innovation, Thailand |
| AS59-A020 |
Characteristics of Different Intensity Hourly Heavy Rainfall Events and Forecasting Indices Thresholds in Beijing Metropolitan Region of 2010-2019 |
Lei LEI1#+, Yanyan KANG2, Nan XING3, Jisong SUN4, Mingxuan CHEN4, Xuan ZHOU2, Yuanyuan WANG2
1Beijing Weather Forecast Center, Beijing Meteorological Service, China, 2Beijing Weather Forecast Center, China, 3Beijing Meteorological Service, China, 4China Meteorological Administration, China |
| AS59-A021 |
Initiations of Mesoscale Convective Systems in the Middle Reaches of the Yangtze River Basin Based on FY-4A Satellite Data: Statistical Characteristics and Environmental Conditions |
Ya-Nan FU+, Jianhua SUN#, Shenming FU, Yuanchun ZHANG, Zheng MA
Chinese Academy of Sciences, China |
| AS59-A022 |
Machine Learning Approach for Prediction of Lightning Probability in the Warm Season |
Kyuhee SHIN+, Kwonil KIM, Si-Hyeon SON, Gyu Won LEE#
Kyungpook National University, Korea, South |
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