Poster Program and Numbering
Posters are listed by session below. Each poster is assigned to a group (A, B, C, or D) and will be presented for two days of the conference (Monday and Tuesday or Wednesday and Thursday). This is a change from earlier plans to have the posters up for one day. Posters in Groups A and B will be presented on Monday and Tuesday from 1230-1445, and posters in Groups C and D will be presented on Wednesday and Thursday from 1230-1445. Due to the large number of abstracts received for sessions 15 and 23, those sessions have been split into two parts, so please take note of which day your poster will be presented on.
Maps of the poster locations are below. Each poster has been assigned a location in one of the rooms or hallways of the venue. Poster PDFs will be linked to the abstract titles below in the weeks following the Conference. To submit your poster PDF, complete the form at the bottom of the poster guidelines page.
Posters in Groups A and B
Posters in Groups C and D
Posters can be set up in the morning before noon on the day they are scheduled to be presented and must be removed by 2100 the same night. Any poster not removed by 2100 will be discarded.
Lightning talks are indicated by an * to the right of the poster number. Lightning talks in Group A will go on Monday, talks in Group B will go on Tuesday, talks in Group C will go on Wednesday, and talks in Group D will go on Thursday.
| Session Number | Poster Number | First Name | Last Name | Abstract Ttile |
| 1 | A-1 | Juris | Almonte | On the Changing Rain-Snow Transition Region Over the Southern Canadian Cordillera: A Perspective into the Future |
| 1 | A-2* | Wilhelm | May | Contributions of soil moisture interactions to the climate biases in the EC-Earth Earth System Model |
| 1 | A-3 | Salauddin | Mohammad | Retrieving characteristics of Inertia Gravity Wave parameters with least uncertainties using hodograph method |
| 1 | A-4 | Marisol | Osman | Towards the co-production of climate knowledge for Strengthening Societal Adaptation Response to Extreme Events: Strategy for Northeastern Argentina agricultural sector. |
| 1 | A-5 | Maria | Poggi | Assessing the analog method for statistical downscaling of daily precipitation in Southeastern South America |
| 1 | A-6 | Olivia | Martius | Flood-relevant precipitation thresholds for Switzerland |
| 1 | A-7 | Zun | Yin | Evaluation of ORCHIDEE-MICT simulated soil moisture over China and impacts of different atmospheric forcing data |
| 1 | A-8 | CHOU | MING | A characteristics analysis and assessment of economic damage of typhoons during 1990-2015 in Guangdong, China |
| 2 | C-47 | Wang | Shijin | Analysis of water resource system risk and management in Asian arid areas: a case study in the Chinese Heihe River Basin |
| 2 | C-48* | Jason | Evans | OzEWEX: An Australian network focused on climate-water interactions |
| 2 | C-49* | Kenshi | Hibino | High resolution monitoring system of hydrological cycle in Japan |
| 2 | C-50 | Ali | Nazemi | Benchmarking Global Reservoir Operation Algorithms in a Regional Case Study |
| 2 | C-51 | Jeffrey | Basara | Developing a Framework for Seamless Prediction of Sub-Seasonal Extreme Precipitation Events in the United States. |
| 2 | C-52 | Shuanglin | Li | Climatic Trend and Future Projection of the Consecutive Rainfall Events over Three Gorges Reservoir Gegion in Spring |
| 3 | D-2* | Thomas | Holmes | Evaluation the application of thermal infrared and microwave surface temperature observations to the retrieval of evapotranspiration under clear to cloudy conditions. |
| 3 | D-3* | Joan | Cuxart | ET uncertainties linked to surface heterogeneities and energy imbalance |
| 3 | D-4 | Bob | Su | Remote sensing of global land surface heat fluxes and evaporation with a turbulent heat exchange parameterization method – A reprisal of SEBS |
| 3 | D-5 | Sara | Vallejo-Bernal | Evaluating Diverse Potential Evapotranspiration Methodologies and Datasets in Amazonia under the Budyko Framework |
| 3 | D-6 | Alain | Tamoffo | Dynamic of moisture flux, evaporation and precipitation over Central Africa in Reanalysis and RCA4 driven by CMIP5 |
| 4 | C-35* | Julian | Giles | The diurnal cycle of precipitation over South America and how preceding soil moisture conditions can affect precipitation events. |
| 4 | C-36 | Yukari | Takayabu | Upper tropospheric controls of the extreme precipitation in the western north Pacific sector |
| 4 | C-37 | Brian | Mapes | Extreme precipitation on 0.25-4 degree and daily scales: Case studies, data product comparisons, and an interactive atlas where you can do the same |
| 4 | C-38 | Geremy | Panthou | The Sahelian rainfall regime intensification: From daily to sub-daily timescales. |
| 4 | C-39 | Geert | Lenderink | Super Clausius Clapeyron scaling of convective rain intensities and its relation to large-scale atmospheric conditions and convective cell size |
| 4 | C-40 | Bodo | Ahrens | Diurnal cycles and tracks of convective cells in radar and lightning observations vs. convection permitting simulations |
| 5 | C-1* | Wim | Thiery | Irrigation versus global warming |
| 5 | C-2* | Zun | Yin | How irrigation affects water budget in China with different irrigation schemes |
| 5 | C-3* | Felix | Zaussinger | Mapping irrigated cropland over the contiguous United States by combining satellite and modelled soil moisture data (Presented by Wouter Dorigo) |
| 5 | C-4 | Liang | Chen | Observed and Simulated Impacts of Global Irrigation on Local Surface Temperature |
| 5 | C-5 | Patricia | Lawston | Irrigation Signals Detected from Satellite Soil Moisture Retrievals / Also an oral presentation in S5 on Wednesday, 9 May at 11:30 AM in the Ladyslipper-Arnica Room |
| 6 | C-41* | Toby | Marthews | The impact of uncertainty in rainfall on water resource prediction. |
| 6 | C-42 | Sujan | Koirala | Spatiotemporal association of the modelled groundwater recharge and precipitation |
| 6 | C-43 | Xinyao | Zhou | The change of spatiotemporal characteristics of extreme rainfall and its link with urban flooding in Beijing Metropolitan Area |
| 6 | C-44 | Jean-Luc | Martel | Evolution of daily and hourly precipitation and streamflow extremes in three large ensembles of climate simulations over North American catchments |
| 6 | C-45 | Yonghui | Yang | Linking trends in urban extreme rainfall to urban flooding in China |
| 6 | C-46 | Georges-Noel | Longandjo | On the large-scale circulation over Central Africa and its associated water vapour budget |
| 6 | C-55 | Joel | Zeder | On the large-scale circulation over Central Africa and its associated water vapor budget (Erich Fischer presenting) |
| 6 | C-56 | David | Gochis | Quantifying the impacts of a warming climate on water supply and hydrologic extremes using the community |
| 7 | B-19* | Christopher | McCray | Long-Duration Freezing Rain Events over North America: Regional Climatology and Maintenance Mechanisms |
| 7 | B-20* | Tina | Trautmann | Understanding terrestrial water storage variations in northern latitudes across scales |
| 7 | B-21 | Marzi | Azarderakhsh | High Resolution Freeze and Thaw States Detection using Sentinel SAR Measurements |
| 7 | B-22 | Tristan | L’Ecuyer | Observational Constraints on the Representation of Polar Energy Budgets in Global Models |
| 7 | B-23 | Sébastien | Marinier | Precipitation characteristics during winter storms over eastern Canada using convection-permitting climate model simulations |
| 7 | B-24 | Michael | Allchin | A spatial analysis of Northern Hemisphere seasonal snow replenishment trends, 1971-2014 |
| 7 | B-25 | Dominic | Matte | Projected changes of mixed precipitation over southern Québec, Canada, using high-resolution regional climate simulations |
| 7 | B-26 | Sebastian | Krogh | Past, Present and Future Arctic hydrology under changing climate and vegetation |
| 7 | B-27 | Ryan | Crumley | Using Citizen Science Observations to Improve Snow Modeling in Alaska and Beyond |
| 7 | B-28 | Hilary | Smith | Major Precipitation Events and Red River Flooding |
| 7 | B-29 | Anne Sophie | Daloz | Comparison of snowfall estimates in CloudSat versus reanalyses and climate models |
| 7 | B-30 | Okan | Aygün | Simulation of snow transport and sublimation in an agricultural river catchment, southern Quebec, Canada |
| 8 | D-16* | Jan | Rajczak | Projections of future precipitation extremes over Europe: a multi-model assessment of climate simulations |
| 8 | D-17* | Hailan | Wang | Simulation and prediction of warm season drought in North America |
| 8 | D-18 | Kevin | Reed | Investigating potential changes in tropical cyclones impacting the U.S. using a high-resolution global model |
| 8 | D-19 | Martin | De Kauwe | Are we underestimating the capacity of the vegetation to moderate heat extremes? |
| 8 | D-20 | Mi | Yan | Simulating centennial extreme climate event during 4.2ka BP with a long-term experiment using CCSM3 |
| 8 | D-21 | Kefan | Chen | Simulation of Ming Dynasty drought based on Community Earth System Model |
| 8 | D-22 | Daithi | Stone | Progress in the International CLIVAR C20C+ Detection and Attribution Project |
| 8 | D-23 | Charlotte | Love | Comparison of extreme precipitation return levels using spatial Bayesian hierarchical modeling versus regional frequency analysis |
| 8 | D-24 | Nabir | Mamnun | Forcing ocean model with atmospheric model outputs to simulate storm surge in the Bangladesh coast |
| 8 | D-25 | Yimin | Liu | A New Synoptic Scale Resolving Climate Model FAMIL and Its Performance in Tropical Cyclones Simulation: Climatology, Variability, and A case study |
| 8 | D-26 | Sara | Vallejo-Bernal | Statistical Scaling of the Percentiles of the Daily Flow Duration Curve with the Long-Term Mean Discharge in Colombian Rivers |
| 8 | D-27 | Jing | Yang | Summer extreme precipitation over Eastern China: comparison among observation, reanalysis and models |
| 8 | D-28 | Zhang | Hongyue | The Characteristics of centennial-scale changes of East Asian Summer Monsoon and impact on extreme event over the Past 2000 Years |
| 8 | D-29 | Imme | Benedict | The effect of model resolution on the representation of the hydrological cycle in the Rhine and Mississippi basin |
| 9 | A-17* | Seiji | Kato | Temporal variability of atmospheric column energy balance residual |
| 9 | A-18 | Qingyun | Duan | Achieving better global water and energy budgets through model calibration |
| 9 | A-19 | Shin-Ya | Ogino | Tropical coastal dehydrator in global atmospheric water circulation: An overview |
| 9 | A-20 | Keith | Haines | Structural uncertainties on EO flux products using multiple products with in situ observations |
| 9 | A-21 | Andreas | Becker | The water cycle over land as evaluated from the 2018-version of GPCC’s precipitation analysis products |
| 9 | A-22 | Miklos | Zagoni | Regularities and Direct Surface – Top-Of-Atmosphere Flux Relationships in the CERES Data Sets |
| 10 | B-57* | Paul | Stackhouse | An Assessment of Multi-year Period Surface Radiative Fluxes from The GEWEX Surface Radiation Budget Project Release 4 Integrated Product |
| 10 | B-58 | Aihui | Wang | The 30-year global land surface products and their validations: multi-forcing simulations |
| 10 | B-59 | Marc | Schroeder | EUMETSAT’s Climate Monitoring SAF: A sustained provision of Climate Data Records for Evaluation and Climate Monitoring |
| 10 | B-60 | Miklos | Zagoni | A New Global Energy Budget Diagram, with Flux Integer Tables for Clear, Cloudy and All-sky Conditions |
| 10 | B-61 | Tianbao | Zhao | Historical and Future Changes of Atmospheric Precipitable Water over China Simulated by CMIP5 Models |
| 11 | A-51* | Dohyuk “DK” | Kang | Toward Korea Land Data Assimilation Systems within Asia Land Data Assimilation System by using NASA GSFC Land Information System |
| 11 | C-6* | Shailendra | Mandal | Effects of Climate Extremes on Urban Freshwater Availability: A Case Study of An Indian Metropolitan City |
| 12 | D-30* | Phu | Nguyen | Global satellite precipitation observations from weather to climate scales: progress to date and challenges ahead |
| 12 | D-31* | Huan | Wu | Global Floods and Their Connections with the El Nino-Southern Oscillation During the TRMM/GPM Era |
| 12 | D-33 | Guojun | Gu | Climatology and Variations of Daily Precipitation Intensity and Extremes Derived from Satellite-Based Precipitation Products |
| 12 | D-34 | Francisco | Lahoud | Quantifying Total Water Storage in Minnesota River Watershed |
| 12 | D-35 | Isabella | Pfeil | Satellite surface soil moisture trends in Austria |
| 12 | D-36 | Quan | Cui | Modeling and uncertainty analysis of wetland’s water storage volume in Alberta, Canada |
| 12 | D-37 | Kosuke | Yamamoto | The Effect of Satellite Data on a Global Hydrological Simulation |
| 12 | D-38 | Christopher | Beale | Diurnal cycles of surface temperatures using satellite, UAV remote sensing, and in situ measurements. |
| 13 | D-39* | Aseem | Sharma | Quantifying the impacts of flow regulation and climate change on streamflow trends in British Columbia’s Nechako River Basin |
| 13 | D-40 | Stephan | Thober | Climate change alters low flows in Europe under a global warming of 1.5, 2, and 3 degrees |
| 13 | D-41 | Yuanbo | LIU | Droughts in the Yangtze River: Impact from Climatic and Anthropogenic changes |
| 13 | D-42 | Jiafu | Mao | Detection and attribution of US runoff for the period 1950-2010 |
| 13 | D-43 | Monireh | Faramarzi | Assessment of future water endowments: establishing a robust foundation to study regional water, food, energy, and environment dynamics |
| 13 | D-44 | Chunlin | Wang | Temporal-spatial variation of meteorological drought Based on SAPI in recent 50 years, South China |
| 13 | D-45 | Richard | Lawford | GEO (Group on Earth Observations) Global Water Sustainability (GEOGLOWS): Earth Observations for enhancing sustainability in water management |
| 13 | D-46 | Bethel | Ukazu | Groundwater in emergencies: Impact of large scale Humanitarian response on groundwater resources, a case study of Boko Haram Crisis in Maiduguri, Northeast Nigeria. |
| 14 | A-42* | Andre | Bertoncini | GPM-IMERG Snowfall Estimates in Cold Mountainous Regions |
| 14 | A-43* | Travis | Roth | Advances in canopy snow interception understanding and modeling framework within a maritime forest |
| 14 | A-44 | John | Pomeroy | Climate Change and Mountain Hydrology: Results from the Global Energy and Water Exchange Project’s International Network for Alpine Research Catchment Hydrology |
| 14 | A-45 | Roy | Rasmussen | Snowfall and Snowpack Future Trends in the Western U.S. as Revealed by a Convection Resolving Climate Simulation |
| 14 | A-46 | Kabir | Rasouli | Interaction between climate and vegetation changes in affecting hydrological processes in mountainous regions |
| 14 | A-47 | David | Lawrence | Improving terrestrial hydrologic process representation in Earth System Models: Groundwater flow through representative hillslopes |
| 14 | A-48 | Kristoffer | Aalstad | Snow history matching in mountainous terrain |
| 14 | A-49 | Joanna | Young | Estimating recent glacier mass loss for the Juneau Icefield, Alaska, using GRACE gravimetry and water balance modeling |
| 14 | A-50 | José Daniel | Pabón-Caicedo | On the föhn effect in the mountainous regions of Colombia |
| 15 | C-14* | Xiaodan | Guan | Decadal signal of energy to hiatus over Tibet Plateau |
| 15 | C-15* | Siqiong | Luo | Improving CLM4.5 Simulations of Land-Atmosphere Exchange during Freeze-Thaw Processes on the Tibetan Plateau |
| 15 | C-16* | Dambaru | Kattel | Temperature Prediction Model for High Elevation Mountain Terrain: An Example from the Southeastern Tibetan Plateau |
| 15 | C-17 | Rong | Liu | Determination of microwave vegetation optical depth and water content in the source region of the Yellow River |
| 15 | C-18 | Anmin | DUAN | Quantitative analysis of surface warming amplification over the Tibetan Plateau after the late 1990s using surface energy balance equation |
| 15 | C-19 | Tonghua | WU | Characteristics of hydrochemical properties of ground ice in permafrost regions of the Tibetan Plateau |
| 15 | C-20 | Duoying | Ji | Tibetan Plateau glacier change and its impact on regional hydrological cycle |
| 15 | C-21 | Linyun | Yang | Evaluation of multi-physics on the simulation of extreme hot summer in 2003 over CORDEX-EA-II Region |
| 15 | D-8 | Weiqiang | Ma | Modelling and validation land-atmospheric heat fluxes using land surface parameters over the Tibetan Plateau |
| 15 | D-9 | Likun | Ai | Third Pole Environment (TPE) Programme: Recent progresses |
| 15 | D-10 | Xiaoduo | Pan | Evaluation of the linkage between evapotranspiration and precipitation over Tibetan Plateau based on WRF model and remote sensing products |
| 15 | D-11 | Tao | Che | Quantifying snow albedo radiative forcing and its feedback during 2003-2016 |
| 15 | D-12 | Furrukh | Bashir | A Hydrometeorological Perspective on the Karakoram Anomaly Using Unique Valley-Based Synoptic Weather Observations |
| 15 | D-13 | xiaohua | hao | Accuracy assessment of four cloud-free snow cover products over the Qinghai-Tibetan Plateau |
| 15 | D-14 | Changwei | Xie | Change of permafrost with the change of lakes area in the Hoh Xil region, China |
| 15 | D-15 | Youhua | Ran | A high resolution permafrost thermal stability map in the third pole |
| 16 | A-32* | Daniel | Betancourt | Trends in heat extremes and dynamic/thermodynamic driving mechanisms at Vancouver, British Colombia |
| 16 | A-33* | Reinhard | Schiemann | Representation of blocking in a multi-model ensemble of high-resolution coupled global climate models |
| 16 | A-34 | Jess | Barbier | Spring Sahelian heat waves: detection, characteristics and trends |
| 16 | A-35 | Zhiwei | Wu | Can the Tibetan Plateau Snow Cover influence the interannual variations of Eurasian Heat Wave Frequency? |
| 16 | A-36 | Martin | Leduc | Characterization of extreme heat waves using the ClimEx high-resolution regional climate model large ensemble |
| 16 | A-37 | Ting | Hu | Projected changes in China temperature extremes for global warming of 1.5ºC and 2ºC |
| 16 | A-38 | Yang | Chen | An Inter-comparison of Three Types of Hot Extremes in China during 1961-2015: overlooked compound extremes and significant changes |
| 16 | A-39 | Peng | Wang | How do forest and grassland ecosystems respond differently to heat waves? |
| 16 | A-40 | Weilin | Liao | Local hydroclimate controls the urban-rural contrast of long-term trends in heat waves |
| 16 | A-41 | Frederique | Cheruy | What the IPSL climate reconstruction teach us on the realism of the simulated heat waves? |
| 17 | B-41 | Ernesto | Berbery | On the Predictability of Winter Storm Tracks and their Storm-related Losses over North America |
| 17 | B-42* | Neil | Tandon | Understanding the Dynamics of Future Changes in Extreme Precipitation Intensity |
| 17 | B-43 | Paolo | Ruti | Building resilience to weather-related hazards through better preparedness |
| 17 | B-44 | Cassiano | Bortolozo | Integration of Geophysical Methods, Geotechnical Soundings and Soil Characterization Applied in Landslide Study in Campos do Jordão – São Paulo State, Brazil |
| 17 | B-45 | Chunxia | Liu | A Method of Tropical Cyclone Generation Prediction in South China Sea |
| 17 | B-46 | Melinda | Brugman | Precipitation Intensity and Snow Level Feedbacks in a Changing Storm Track over Mountains |
| 17 | B-47 | Bethany | Woodhams | High-resolution model case studies of the lake breeze and severe storms over the Lake Victoria Basin |
| 17 | B-48 | Lance | Bosart | Large-Scale Upstream Circulation Influences on California’s 2017 Record Winter Rains |
| 17 | B-49 | Hong | Lu | Analysis of freezing rain and snow storm events variation characteristics over South China |
| 17 | B-50 | Remy | Roca | Observational estimate of the contribution of long lasting mesoscale convective systems to the extreme daily precipitation in the tropics |
| 17 | B-51 | Benoit | Guillod | Flood impact modelling: economics and adaptation at the global scale |
| 17 | B-52 | Kyoungmi | Cho | Evaluation of Medium-Range Forecasts by the KIAPS Global Model for Local Extreme Weather Events on the Korean Peninsula for Summer 2017 |
| 17 | B-53 | Margarida | Liberato | Historical Extreme and High-Impact Storms in Portugal: Consistent Catalogues and Dependency on Datasets |
| 17 | B-54 | Julia | Curio | Climatology of Tibetan Plateau Vortices in reanalysis data and a high-resolution global climate model |
| 17 | B-55 | Christina | Aragon | Large-scale meteorological patterns associated with precipitation extremes over Portland, OR |
| 17 | B-56 | Rongcai | Ren | Seeking a leading indicator of continental scale cold air outbreaks in the northern winter from the global mass circulation variability |
| 17 | B-62 | Jana | Sillmann | Translating the October 2014 flood event in western Norway into the future |
| 18 | B-31* | Margarida | Liberato | Assessing Compound Extreme Events Using Expert Crowdsourcing for Semantic Annotation |
| 18 | B-32* | Martha | Vogel | Spatially concurrent heatwaves and their relevance for global crop production |
| 18 | B-33 | Jakob | Zscheischler | Future climate risk: The challenge of compound events |
| 18 | B-34 | Donghui | Shangguan | Quick release of internal water storage in a glacier leads to underestimation of the hazard potential of glacial lake outburst floods from Lake Merzbacher in central Tian shan Mountains |
| 18 | B-35 | Mohamed Ali | Ben Alaya | Probable maximum precipitation using bivariate extreme value analysis |
| 19 | B-1* | Siyan | Dong | Attribution of precipitation extremes to human influence at mid- and high-latitudes in Asia |
| 19 | B-2* | In-Hong | Park | Attribution of the Indo-Pacific warm pool expansion: Seasonal changes |
| 19 | B-3 | Jacob | Hunter | Can Greater-than-Gaussian Increases in Extreme Warm Temperature Threshold Exceedances in Regions of non-Gaussian Short Tails be Detected in the Observational Record? |
| 19 | B-4 | Katsiaryna | Sumak | Weather extremes and their relation with cyclonic circulation over the territory of Belarus |
| 19 | B-5 | Zhihong | Jiang | Additional risk in extreme precipitation in China from 1.5 degrees C to 2.0 degrees C global warming levels |
| 19 | B-6 | Yamin | Hu | The possible cause of the summer drought over Southwest China since 2002/2003 |
| 19 | B-7 | Jesse | Dickinson | Regionalized variability of annual peak and seasonal maximum streamflow in the conterminous United States |
| 19 | B-8 | Jilong | Chen | Decadal Changes of Summer Heavy Rainfall in China and Their Large-scale Circulation Backgrounds |
| 19 | B-9 | Qingxiang | Li | China experiencing the recent warming hiatus |
| 19 | B-10 | zhonghua | qian | Regularities of Temporal-spatial Distribution of Extreme Temperature Events about China Daily Minimum Temperature Records in Different Climate States against the Background of Most Probable Temperature |
| 20 | C-22* | Juan | Rivera | Assessing the severity, duration and impacts of the recent hydrological drought (2010-2015) across the Central Andes of Argentina in a climate change context. |
| 20 | C-23* | Eveline | Linden | Impact of model resolution on future soil moisture droughts over central Europe |
| 20 | C-24 | Barrie | Bonsal | An Assessment of Summer Hydro-Climatic Variability and Extremes on the Canadian Prairies |
| 20 | C-25 | Dean | Walker | Seasonal Prediction Skill of the Long and Short Rains in East Africa |
| 20 | C-26 | Zhenhua | Li | Madden-Julian Oscillation and the Canadian Prairies’ Summer Precipitation: Historical Period and Future |
| 20 | C-27 | Lifeng | Luo | Reexamining the prediction of the 2012 Great Plains drought |
| 20 | C-28 | David | Mocko | Representation of severe droughts in the North American Land Data Assimilation System (NLDAS) multi-model ensemble |
| 20 | C-29 | Samuel | Sutanto | Can we forecast meteorological and hydrological drought events few months ahead? |
| 20 | C-31 | Jiexia | Wu | A new framework for determining causes of drought demise over CONUS |
| 20 | C-32 | David | Burrows | Multi-scale interaction of drought and the low-level jet in the Great Plains |
| 20 | C-33 | Zilefac Elvis | Asong | Spatiotemporal evolution of hydroclimatic drought over Canada under present conditions |
| 20 | C-34 | Inna | Semenova | Distribution of dry winds in Ukraine under related atmospheric macrocirculation processes |
| 20 | C-54 | Ben | Livneh | Characterizing the Robustness of Snowpack-based Drought Indicators in the Upper Colorado River Basin |
| 21 | C-7* | Erik | Behrens | Oceanic Heat Waves around New Zealand |
| 21 | C-8* | Yeon-Hee | Kim | Event attribution of 2013 Korean summer heat wave using multi-model ensemble |
| 21 | C-9 | Francis | Zwiers | How much information is required to well-constrain local estimates of future precipitation extremes? |
| 21 | C-10 | Nestor | Bernal | On the anisotropy in the spatial distribution of the correlation of precipitation in Upper Magdalena river basin in Colombia |
| 21 | C-11 | Gaby | Langendijk | Regional-to-local climate impact modeling for urban applications |
| 21 | C-12 | Omid | Mazdiyasni | Increasing probability of mortality during Indian heat waves |
| 21 | C-13* | Faten | ATTIG BAHAR | Mapping a Changing Energy Landscape in North Africa with Relation to Climate Change and Extreme events: Tunisia Case |
| 22 | D-7* | Laura | Araque | Application of software (Solam) for the interpretation of data of geotechnical rainfall stations |
| 23 | A-9* | Cheng | Tao | The regional water budget for different convection regimes at the Southern Great Plains |
| 23 | A-10* | Hong | Chen | Impacts of Eurasian Snow Condition on Spring Climate Predictability over China by a Global Climate Model |
| 23 | A-11* | Ikechukwu | Mbachu | Quantifying the Impacts of Climate Variability and Land Use Changes on the Hydrological Response of the Niger Delta |
| 23 | A-12 | Carla | Gulizia | Relationship between rainfall and runoff variability in the La Plata Basin at seasonal to decadal timescale |
| 23 | A-13 | Sun | Xuan | Relationship between Elevation Dependency of Warming and Albedo Changes over the Tibetan Plateau |
| 23 | A-14 | Shujuan | Hu | Three-pattern decomposition of global atmospheric circulation: Part II – dynamical equations of horizontal, meridional and zonal circulations |
| 23 | A-15 | Christopher | Taylor | Mesoscale Rainfall Patterns Observed around Wetlands in Sub-Saharan Africa |
| 23 | A-16 | Yongkang | Xue | Spring Land Surface and Subsurface Temperature Anomalies and Subsequent Downstream Late Spring-Summer Droughts/Floods in North America and East Asia |
| 23 | B-11 | Igor | Zveryaev | Summertime Soil Moisture Variability in European Russia and its Links to the Key Climate Parameters |
| 23 | B-12 | Heewon | Moon | Temporal and Spatial Soil Moisture Effects on Afternoon Rainfall in Global Climate Models |
| 23 | B-13 | Weizhong | Zheng | Understanding Near Surface Fields Forecasting in the NCEP Global Forecast System |
| 23 | B-14 | Tomoko | Nitta | The impact of representing snow-fed wetlands on summer warm and dry biases through land atmosphere interaction in MIROC5 AGCM experiment |
| 23 | B-15 | Xueli | SHI | Land cover change analysis and simulated climate effects of cropland changes with BCC_CSM component models by using the CG-LTDR datasets during 1982-2012 |
| 23 | B-16 | Zhe | Zhang | Climate-Groundwater Interaction on Modeling Wetlands in Prairie Pothole Region |
| 23 | B-17 | Jingfeng | Wang | A Coupled Force-restore Model of Surface Temperature, Surface Soil moisture, and Near-surface Air Temperature using the Maximum Entropy Production Model of Heat Fluxes |
| 23 | B-18 | Geng | Xia | Simulating Impacts of Real-World Wind Farms on Land Surface Temperature Using the WRF Model: Physical Mechanisms |
| 24 | D-1 | Martyn | Clark | Novel approaches for benchmarking |
| 25 | A-23* | Jason | Flemke | Central U.S. WRF statistical verification of simulated composite radar |
| 25 | A-24 | Steven | Chan | The character of hourly extreme precipitation in Europe-wide 2.2km hindcast simulations |
| 25 | A-25 | Yanping | Li | Projected changes over western Canada using convection-permitting regional climate model |
| 25 | A-26 | Justin | Minder | Characterizing and constraining uncertainties in convection permitting simulations lake-effect snowfall associated with parameterization of surface fluxes |
| 25 | A-27 | Travis | O’Brien | Convective Aggregation and the Intensity, Duration, Area and Frequency of Precipitation |
| 25 | A-28 | Kyung-Hee | Seol | Verification of near-surface temperature from KIM numerical simulation |
| 25 | A-29 | Alexander | Baker | Extratropical cyclones and extreme precipitation in high-resolution global climate models |
| 25 | A-30 | Zhenyu | HAN | Ensemble projection of temperature and precipitation under the 1.5°C warming in East Asia using regional climate models |
| 25 | A-31 | Shuyu | Wang | Future Climate Projection under IPCC A1B Scenario in the Source Region of Yellow River with Complex Topography using RegCM3 |
| 26 | B-36* | Mia | Gross | The sensitivity of daily temperature variability and extremes to dataset choice |
| 26 | B-37* | Matilde | Ungerovich | Characterization and predictability of extreme rainfall events in Southern Uruguay in Summer and Spring |
| 26 | B-38 | Lisa | Alexander | An overview of how observations are contributing to the WCRP Grand Challenge on Extremes |
| 26 | B-39 | Wenmin Zhang | Zhang | Spatio-temporal changes of Sahelian rainfall observed with daily satellite data from 1983 to 2015 |
| 26 | B-40 | Luana | Pampuch | Spatial Clustering for Maxima Preciptiation over South America |
