| Presenter | Title |
|---|
| ALEXANDER AUGUSTINE, Lauren |
From Flood Risk to Flood Resilience |
| Abad, Jorge |
Morphodynamics and river modeling |
| Adams, Jordan |
Integrating a 2-D Hydrodynamic Model into the Landlab Modeling Framework |
| Alexander, Peter |
Global scale agricultural systems: the role of diet, trade and food waste |
| Aller, Robert |
Source to sink serial reactors and the critical importance of energetic topsets in biogeochemical cycling |
| Ames, Daniel |
MapWindow GIS |
| Amos, Carl |
Capabilities of models in assessing sediment accumulation, transport, and erosion in estuaries on different time and space |
| Anarde, Katherine |
Simulating linkages between landscape evolution and coastal real estate markets with the CoAStal Community-lAnDscape Evolution (CASCADE) model |
| Anders, Alison |
Follow the water: Post-glacial landscape evolution in the Central Lowlands |
| Anderson, John |
Different Stratigraphic Architectures Offshore Texas Reflect Spatial and Temporal Variability in Sediment Supply and Dispersal |
| Anderson, Bob |
Glacier hydrological modeling |
| Anderson, Suzanne |
Boulder Creek Critical Zone Observatory |
| Arango, Hernan |
Regional Ocean Modeling System (ROMS) |
| Arneth, Almut |
Recent developments in Digital Global Vegetation Models (DGVMs): C/N dynamics and crops yields |
| Arora, Bhavna |
Modeling approaches for providing water and energy solutions to the world |
| Arsenault, Matthew |
U.S. Geological Survey Woods Hole Field Center: Background, Data & Visualization |
| Ashton, Andrew |
Delta morphodynamics: coupling fluvial, coastal, marine processes and human influences on large deltas |
| Atkinson, John |
A Coupled ADCIRC and SWAN model of Hurricane Surge and Waves. |
| Austermann, Jacky |
Integrating numerical models with co-production to understand sea level change and its impact around Greenland |
| Awards, Marie-Christin Wimmler |
Student Modeler Award 2025 |
| Awards, Brad Murray |
Lifetime Achievement Award |
| Axtel, Rob |
Massive Agent-Based Models |
| Baart, Fedor |
Models in virtual environments and digital twins |
| Barnhart, Katy |
Melting Coasts and Toppled Blocks: Modeling Coastal Erosion in Ice-Rich Permafrost Bluffs, Beaufort Sea, Alaska |
| Barnhart, Katy |
How Landlab has helped my research |
| Barnhart, Katy |
Testing landscape evolution models with natural and synthetic experiments |
| Barton, Michael |
High resolution surface process modeling in a GRASS GIS environment |
| Barton, Michael |
CoMSES Net |
| Barton, Michael |
The Network for Computational Modeling for SocioEcological Science (CoMSES Net) |
| Bates, Paul |
Modelling flood risk in the continental US |
| Becker, Thorsten |
Subduction dynamics and surface-deep mantle interactions |
| Bell, Andrew |
Modeling big unknowns in climate adaptation research – an example from mobility in coastal Bangladesh |
| Bennett, Georgie |
Modeling Climate Change Impacts on Mountain Basin Sediment Transfer |
| Beselly, Sebrian |
Simulating mangrove-mudflat dynamics with a hybrid eco-hydro-morphodynamic model |
| Best, Uwe |
Mangrove Interaction with Tidal Flow, Waves & long term sedimentation: Combining Field Data & Numerical Modelling |
| Bever, Aaron |
Modeling Hydrodynamics and Sediment Transport in Poverty Bay, New Zealand; A Basic ROMS overview |
| Beylich, Achim |
Erdalen Sediment Budget |
| Blair, Neal |
The Role of Watershed Storage on Exported Riverine Organic Carbon Signatures |
| Bonan, Gordon |
Reinventing Nature: Environmental Stewardship in the Age of Earth System Models |
| Braun, Jean |
Links Between Mantle Convection, Tectonics, Erosion and Climate: Recent Model Developments and Results |
| Braun, Jean |
Parameterizing Surface Processes and their Response to Tectonic and Climatic Forcings |
| Brown, Dan |
Agent-Based Modelling of rural and urban land systems at the landscape scale |
| Brown, Jed |
JOSS: Journal of Open Source Software |
| Brückner, Muriel |
Modelling the effects of dynamic saltmarsh and microphytobenthos growth on the large-scale morphology of estuaries |
| Budd, Dave |
What Do We Know - Diagenesis |
| Buiter, Susanne |
How extensional tectonics and surface processes interact to shape continental plate boundaries |
| Burgess, Peter |
Summary of the February 2008 meeting |
| Burgess, Peter |
State of Art in Carbonate Modeling |
| Burgess, Peter |
Opening meeting |
| Burgess, Peter |
Overview Carbonate Focus Research Group |
| Caers, Jeff |
CSDMS: Special Issue in Computers & Geosciences Journal |
| Caldwell, Rebecca |
A numerical modeling study of the effects of sediment properties on deltaic processes and morphology |
| Callaghan, Kerry |
Coupled Groundwater and Dynamic Lake Modelling using the Water-Table Model (WTM) |
| Camelo, Jeane |
Climate change impacts on hurricane storm surge risk |
| Campbell, Karen |
Taking it to the Streets: The Case for Modeling in the Undergraduate Curriculum |
| Campbell, Karen |
EKT at NCED |
| Canestrelli, Alberto |
Tidal channels and estuarine dynamics |
| Cheng, Zhen |
A Turbulence-Resolving Eulerian Two-Phase Model for Sediment Transport Applications |
| Choi, Eunseo |
Bridging surface dynamics to tectonic modeling with SNAC |
| Chue Hong, Neil |
Software sustainability and FAIR for research software - what does this mean for research into environmental extremes? |
| Clift, Peter |
Controls on the Flux of Sediment to the Arabian Sea from the Western Himalaya since the Last Glacial Maximum |
| Clow, Gary |
WRF weather model |
| Clow, Gary |
Weather Research & Forecasting Model (WRF) for Surface Dynamics and Environmental Change Studies |
| Cohn, Nick |
Towards assessing the coastal zone as an integrated system: the development of a coupled nearshore and aeolian dune model |
| Constantinescu, George |
Gravity Currents |
| Cowan, Ellen |
Fjord Sedimentation from Tidewater Glaciers |
| Curchitser, Enrique |
Regional and Global Ramifications of Boundary Current Upwelling |
| Cutter, Susan |
Social Vulnerability and Community Resilience to Natural Hazards: Models, Tools, and Practice |
| Damsgaard, Anders |
Grain-Scale Numerical Modeling of Granular Mechanics and Fluid Dynamics and Application in a Glacial Context |
| DeLuca, Cecilia |
Analog IIIb: Earth System Modeling Framework |
| Deangelis, Don |
Ecological Applications of Agent Based Models |
| Decaulne, Armelle |
Debris Flows in Iceland |
| Depetris, Pedro |
Sediment processes in tidal river basins and wetlands under human alteration |
| Di Achille, Gaetano |
Modeling ideas - erosion, sediment transport (MARSSIM, GOLEM, CHILD?) and deposition (SEDFLUX?) on Mars |
| DiBenedetto, Michelle |
Buoyant particles in environmental flows: challenges in modelling microplastic transport |
| Dietrich, William |
Sediment Supply to Rivers: Rates, Controls and Predictability |
| Dietze, Michael |
21st Century Science For 21st Century Environmental Decision Making: The Challenges And Opportunities Of Near-Term Iterative Environmental Forecasting |
| Discussion, Panel |
Panel discussion on environmental extremes |
| Discussion, Panel |
AI in Earth Surface Research - Challenges and Opportunities |
| Dixon, John |
Geochemical budgets in Cold Climates |
| Drake, Tom |
Modeling Strategies |
| Droxler, Andre |
Plio-Pleistocene Evolution of Barrier Reefs along Mixed Continental Shelf Edges |
| Duffy, Chris |
Modeling The Isotopic “Age” of Water in Hydroecological Systems with PIHM |
| Duvall, Alison |
From Earthquakes to Landscapes in the Cascadia Subduction Zone |
| Ehlers, Todd |
How Plants Shape Mountains |
| El Sawah, Sondoss |
Eight grand challenges in socio-environmental systems modelling |
| Eldred, Michael |
DAKOTA: An Object-Oriented Framework for Simulation-Based Iterative Analysis |
| Endejan, Marcel |
GWSP & Deltas |
| Famigletti, Jay |
CSDMS Support for the Community Hydrologic Modeling Platform (CHyMP) |
| Famiglietti, Jay |
Overview Hydrology Focus Research Group |
| Famiglietti, Jay |
Status of Community Hydrologic Modeling Platform (CHyMP) activities |
| Fath, Brian |
Quo Vadis Ecosystem? Insights from Ecological Modelling and Systems Ecology |
| Fekete, Balazs |
Global hydrology |
| Fennel, Katja |
Challenges and Opportunities for Ocean Biogeochemical Prediction |
| Flamig, Zachary |
EF5: A hydrologic model for prediction, reanalysis and capacity building |
| Flores, Lejo |
Critical Zone Observratory |
| Flores, Lejo |
2019 Diversity Panel |
| Friedrichs, Carl |
Modeling of Clinoforms Created By Wave/Current Supported Gravity Flows |
| Friedrichs, Carl |
Application of CSDMS to Chesapeake Bay Models |
| Galewsky, Joe |
Transitioning to HPC: Experiences from the Atmospheric Sciences |
| Galewsky, Joe |
Modeling landscape evolution |
| Galvin, Kathleen |
Linking Earth System Dynamics and Social System Modeling |
| Ganju, Neil |
Getting meaning from models: lessons from salt marsh geomorphic modeling |
| George, David |
Modeling earth-surface flow hazards with D-Claw |
| Gilligan, Jonathan |
Connecting Human and Natural Systems: The Role of Agent-Based Simulations |
| Giosan, Liviu |
Case study #1: Danube / Indus |
| Glade, Rachel |
Modeling blocky hillslope evolution in layered landscapes |
| Glaubius, Jennifer |
Coupled Human and Natural Systems: Testing the Impact of Agricultural Terraces on Landscape Evolution |
| Gochis, David |
Process linkages in the WRF-Hydro/NOAA National Water Model: Different processes operating on different scales |
| Goldstein, Evan |
Machine Learning and Coastal Morphodynamics |
| Gomez, Basil |
Flood Production |
| Gonzalez-Juez, Eduardo |
Gravity Current Flow past a Circular Cylinder - Forces, Wall Shear Stresses and Implications for Scour |
| Goodall, Jonathan |
Integrated modeling & data access - CUAHSI HIS hydroModeler |
| Goran, Bill |
Land management system (LMS) |
| Gorr, Alexander |
ProDF: A reduced-complexity model for debris-flow inundation |
| Granjeon, Didier |
Exploring impact of climate changes on the stratigraphy of sedimentary systems using 3D stratigraphic forward model |
| Gray, Harrison |
Traveling at the speed of light: luminescence as a means to quantify fluvial sediment transport rates |
| Green, David |
Space for Risk Global Flood Risk Monitoring |
| Grimm, Volker |
The Open Modeling Foundation: operationalizing FAIR principles |
| Groenenberg, Remke |
Are relay ramps pathways for turbidity currents? |
| Grom, Vivian |
Quantifying Spatial and Temporal Variation in LEM Outputs |
| Group 1, Breakout |
Break out session groups, 1st morning |
| Group 1, Breakout |
Breakout session group results, day 2 Afternoon |
| Hagen, Scott |
Pathways at the coastal land margin to assess climate change impacts with transdisciplinary research outcomes |
| Hall, Brandon |
Coupled turbidity current/substrate interactions: Navier-Stokes based computational studies |
| Harris, Courtney |
Sediment Dispersal Offshore Of Small Mountainous Rivers: Insights from Numerical Models |
| Harris, Courtney |
Clastic Shelves: The Community Sediment Transport Modeling Initiative |
| Harris, Courtney |
Linking Sediment Transport Processes and Biogeochemistry with Application to the Louisiana Continental Shelf |
| Hay, Bill |
Carbonate Fluxes during Earth History |
| Hay, Lauren |
The National Hydrologic Model: coordinated, comprehensive, and consistent hydrologic modeling at multiple scales for the conterminous United States |
| Hegermiller, Christie |
How industry develops and manages scientific code |
| Henniger, Rolf |
Direct Numerical Simulation of Particle Settling in Model Estuaries |
| Hill, Mary |
Testing model analysis frameworks |
| Hill, Mary |
Analog IV: Modflow |
| Hoch, Jannis |
GLOFRIM – A globally applicable framework for integrated hydrologic-hydrodynamic modeling |
| Hoffiman Mendes, Julio |
ImageQuilting.jl: A code for generating 3D stratigraphy from data collected in flume experiments |
| Hoffman, Forrest |
International Land Model Benchmarking Project |
| Holland, Greg |
Deltas: Climate & Hurricanes Risks |
| Hood, Raleigh |
Modeling the Chesapeake Bay |
| Hooper, Rick |
CUAHSI After 5 years: Overview and Plans |
| Hopkins, Julia |
Adapting Urban Coastlines to Climate Change: using models to understand the potential and pitfalls of nature-based solutions |
| Hovius, Niels |
Sediment Production, Mobilization, Storage and Remobilization in Uplands |
| Howard, Alan |
The Marssim model |
| Howard, Alan |
Thinking Source-to-Sink on Mars and Titan |
| Hsu, Tom |
Understanding wave-driven fine sediment transport through 3D turbulence resolving simulations – implications to offshore delivery of fine sediment |
| Hughes, Joe |
Extension of the Basic Model Interface for tight coupling of MODFLOW to other model components. |
| Hutton, Eric |
Linking Models: new componentized versions of CSDMS models |
| Hutton, Eric |
Creating and Linking Components in ESMF and CCA |
| Hutton, Eric |
Overview of CSDMS Technology |
| Hutton, Eric |
Creating Shareable Models |
| Hutton, Eric |
The CSDMS Python Modeling Tool (PyMT) |
| Hutton, Eric |
Overview and Demonstration of Linking Models with the Community Surface Dynamics Modeling System |
| Hutton, Eric |
Linking Models: new componentized versions of CSDMS models |
| Hutton, Eric |
How to configure a model to operate as a component |
| Idol, Terry |
Disasters: Increasing Interoperability for User-driven State-of-the-Art Data and Models |
| Istanbulluoglu, Erkan |
Ecosystem processes and landscape evolution |
| Istanbulluoglu, Erkan |
A Bucket-type Ecohydrology model: Water Balance |
| Jaeger, John |
Cross-Margin Signal Transfer in a Glacial Source-To-Sink Sedimentary System, Southern Alaska |
| Jafarov, Elchin |
Modeling permafrost - a CMT component |
| Jagers, Bert |
Modeling activity by Deltares |
| Janoff, Arye |
From Coastal Retreat to Seaward Growth: Emergent Behaviors from Paired Community Beach Nourishment Choices |
| Janssen, Marco |
How can social science methods be scaled to the global level? |
| Janssen, Marco |
Two Modeling Cultures |
| Jenkins, Chris |
Meeting community and government agency requirements (dbSEABED experience) |
| Jenkins, Chris |
The Machine Learning Landscape |
| Jenkins, Chris |
Scale- and Process-Jumps in a Multimodel Project on Hurricane Impacts at the Seabed |
| Jenkins, Chris |
Population Models for Carbonate Workbench |
| Jenkins, Chris |
Introduction to dbSEABED |
| Johnson, Joel |
Using tsunami sediment transport experiments to improve paleohydraulic inverse models |
| Johnson, Richard |
Landslide budgets over time |
| Jonnson, Helgi |
Rockslides in Iceland |
| Kaplan, Jed |
The human dimensions of reconstructing past land use and land cover change |
| Kayhko, Jukka |
Changing Catchments in Finland |
| Kelman, Ilan |
Deltas: Risk Analysis |
| Kendall, Chris |
Carbonate Systems |
| Kettner, Albert |
Contributing source code to the CSDMS repository |
| Kettner, Albert |
Basic code-submission procedures |
| Kettner, Albert |
Contributing source code to the CSDMS repository |
| Kettner, Albert |
EKT and the CSDMS web site |
| Kettner, Albert |
Case study #7: Po |
| Kettner, Albert |
Introducing the Delta Database |
| Kiehl, Jeffrey |
Analog IIIa: Community Climate System Model Plan (2000 - 2005) |
| Kim, Wonsuck |
Building a Network for Sediment Experimentalists and Modelers |
| Kim, Wonsuck |
Overcoming Grand Challenges by Collaboration between Experimentalists and Modelers |
| Kineke, Gail |
The Role of High Concentration Suspensions in Dispersal of River Sediment |
| Koeppel, Ari |
Standardizing Soil Thermal Inertia Derivations with Bayesian Statistics |
| Koons, Peter |
Unifying Tectonics and Surface Processes in Geodynamics |
| Kopp, Robert |
Co-producing advances in natural/human coastal climate systems research and coastal climate adaptation services: the Megalopolitan Coastal Transformation Hub (MACH) |
| Koppes, Michele |
On The Rate Of Production And Transfer Of Sediment From Glaciated Terrains |
| Kratzert, Frederik |
Long Short-Term Memory networks for rainfall-runoff modeling |
| Kremer, Hartwig |
LOICZ & Deltas |
| Kurtz, Andrew |
Upland Weathering Processes in the Fly River System |
| Lai, Jingtao |
Modeled Postglacial Landscape Evolution at the Southern Margin of the Laurentide Ice Sheet: Hydrological Connection of Uplands Controls the Pace and Style of Fluvial Network Expansion |
| Lakshmi, Venkataraman |
Global Hydrological Water Cycle Extremes |
| Lamarque, Jean-Francois |
Modeling the Couplings Across the Earth Surface in CESM |
| Lancaster, Stephen |
Debris Flows and Sediment in Steep Little Valleys |
| Larour, Eric |
Towards better quantifications of the uncertainty in polar ice-sheet projections using the open source framework ISSM |
| Larsen, Laurel |
Mending the broken heart: How opening and stitching together social and ecological models of California’s Delta region can transform the trajectory of the state’s water management |
| Laurence, Justin |
PREEVENTS update and more |
| Laute, Katja |
Erdalen braidplain budget |
| Lazar, Attila |
Coupling terrestrial and marine biophysical processes with livelihood dynamics for analysis of poverty alleviation in Bangladesh |
| LeVeque, Randy |
The GeoClaw Software |
| Leclair, Suzanne |
Modeling short-term hydrosedimentary processes and the preservation of river dune deposits |
| Lempert, Robert |
Good Decisions Without Good Predictions: Decision Making Under Deep Uncertainty |
| Lesshafft, Lutz |
Sediment Waves:linear stability of a turbidity current boundary layer |
| Lesshafft, Lutz |
Inverse Modeling of sediment deposition from turbidity currents |
| Leverich, Glen |
Geomorphic Landscape Units: An effective approach to quantify relative sediment-production rates across large areas, as applied to the Santa Clara River watershed in southern California |
| Lewis, Ted |
Sediment transport and disturbances |
| Liang, Man |
A reduced-complexity channel-resolving model for sedimentary delta formation |
| Liang Xue, John Naliboff & |
Feedbacks between coupled surface processes and lithospheric deformation during multiphase continental rifting |
| Limaye, Ajay |
A vector-based method for bank-material tracking in coupled models of meandering and landscape evolution |
| Liu, Yonggang |
Gulf oil spill |
| Lorenzo-Trueba, Jorge |
Modeling barrier islands and fluvial-deltas across time scales: Insights from a moving-boundary approach |
| Lovenduski, Nikki |
Ocean Carbon Uptake and Acidification: Can We Predict the Future? |
| Lowman, Lauren |
Modeling Eco-hydrologic Processes Across Scales in Montane Cloud Forests |
| Luo, Wei |
Web-based Interactive Landform Simulation Model (WILSIM) |
| Lyons, Nathan |
Life in Landscape Evolution Models: Investigations of Climate and Tectonics as Drivers of Biological Evolution |
| Mandli, Kyle |
Measuring the Change in Coastal Flooding Risk from a Multi-Hazard Perspective |
| Manduca, Cathy |
Quantitative modeling and education |
| Marshall, Shawn |
Marshall Analog II: Glaciological Models |
| Martin, Raleigh |
NSF Program Updates |
| Martinsen, Ole |
Perspectives on source to sink: methods, tools and development for subsurface interpretation and energy exploration and exploitation |
| Maxwell, Reed |
ParFlow hydrologic model and HPC lessons learned |
| Maxwell, Reed |
Water and Climate Modeling |
| Maxwell, Reed |
Towards a complete description of the hydrologic cycle: Large scale simulations with the open-source, parallel, ParFlow hydrologic model |
| McElwaine, Jim |
The Dynamics of Granular Flows |
| McGuire, Luke |
Modeling the transient effects of fire on runoff and erosion: Implications for debris-flow hazards |
| McKee, Brent |
Variable Geochemical Supply to the Ocean |
| Meade, Bob |
Case study #2: Mississippi |
| Meiberg, Eckart |
Direct Numerical Simulation (DNS) modeling and upscaling |
| Meiburg, Eckart |
High Resolution Simulations of Turbidity Currents and River Outflows |
| Meiburg, Eckart |
Computational Investigations of Gravity and Turbidity Currents |
| Meiburg, Eckart |
High Resolution Simulations of Sediment Transport by Turbidity Currents |
| Meselhe, Ehab |
Coastal Eco-System Integrated Compartment Model (ICM) |
| Milliman, John |
Episodic Events and Resulting Sediment Discharge from Small Mountainous Rivers |
| Milliman, John |
Introduction to group discussion |
| Milliman, John |
Climate impacts on discharge: An overview |
| Milliman, John |
Case study #4: Nile |
| Mitchell, James |
The Spatial and Temporal Factors that Characterize Hydrologic Response |
| Mohrig, David |
Connecting the Flow and Sediment-Transport in Coastal Rivers to Short- and Long-Term Patterns of Delta Sedimentation |
| Moodie, Andrew |
A Flexible Delta Model to Assess Land Building Potential of Sediment Diversions under Various External Forcings |
| Moresi, Louis |
Underworld: A high-performance, modular long-term tectonics code |
| Moresi, Louis |
Quagmire - Algorithms and a Toolbox for Parallel Surface Process Codes |
| Moriarty, Julia |
Coupling Sediment Transport and Biogeochemical Processes: The Role of Resuspension on Oxygen & Nutrient Dynamics |
| Murray, Brad |
Welcome |
| Murray, Brad |
Opening of the CSDMS 2020 virtual annual meeting |
| Murray, Brad |
Updates Coastal and Terrestrial WorkingGroup |
| Naliboff, John |
Methods, challenges and uncertainty in modeling tectonic processes |
| Nativi, Stefano |
GEOSS and its Common Infrastructure |
| Nicholas, Andrew |
Modelling the evolution of large river floodplains |
| Nicholls, Robert |
Deltas as Coupled Socio-Ecological Systems |
| Nienhuis, Jaap |
Two worlds on a single planet: long-term coastal geomorphological data versus models |
| Nienhuis, Jaap |
Growth and Abandonment: Quantifying First-order Controls on Wave Influenced Deltas. |
| Nitzbon, Jan |
Modeling the degradation of ice-rich permafrost landscapes |
| Norris, Boyana |
Portable, Extensible Toolkit for Scientific Computation (PETSc) |
| Norris, Boyana |
High-Performance Component-Based Scientific Software Development |
| Norris, Boyana |
Understanding and Improving the Performance of Scientific Software and its Humans |
| Nudurupati, Sai S. |
Modeling transient Ecosystem Response to Climate Variability since Late Pleistocene using Landlab |
| O'Neill, Brian |
An overview of current global human dimension methods: Integrated Assessment Models |
| Ogden, Fred L. |
Next Generation Water Resources Modeling Framework: Opportunities for Community Involvement |
| Olive, Jean-Arthur |
Feedbacks between brittle deformation and surface processes: Insights from extensional settings |
| Olive, Jean-Arthur |
Modes of extensional faulting controlled by surface processes |
| Orpin, Alan |
The continental slope as a pathway and sink for terrigenous sediment: Source-to-Sink studies of contrasting systems since the last glacial |
| Ortiz, Alejandra |
Atolls and Ecogeomorphology: Investigating the feedbacks between physical processes, anthropogenic, ecological, and changing climate |
| Ortiz, Aleja |
Atolls & Ecogeomorphology: Investigating the feedbacks between physical, anthropogenic, and ecological processes under changing climates via remote sensing, computational modeling, and fieldwork |
| Otto-Bliesner, Bette |
Climate Dynamics of Tropical Africa: Paleoclimate perspectives and challenges |
| Overeem, Irina |
EKT discussion |
| Overeem, Irina |
Education and knowledge transfer (EKT), Objectives, Progress and Plans |
| Overeem, Irina |
EKT Education and Knowledge Transfer Objectives, Progress & Plans |
| Overeem, Irina |
Case study #6: Ganges & Volga |
| Overeem, Irina |
Overeem |
| Paola, Chris |
A Community Surface Dynamics Modeling System: Background |
| Paola, Chris |
Introducing Delta Modeling |
| Paola, Chris |
Basin-Filling Models: An Overview |
| Paola, Chris |
Experimental studies of linked depositional systems |
| Parker, Gary |
The Morphodynamics e-book: A labor of love that never quite gets finished |
| Parker, Gary |
Turbidity Currents and Submarine Debris Flows: Mechanisms for the Dispersal of Sediment from the Nearshore Zone to Deep Water |
| Parker, Gary |
River Sediment Routing Models |
| Passalacqua, Paola |
Grid or subgrid? Analysis of river systems under change at the intersection of modeling and high resolution data analysis |
| Passalacqua, Paola |
Opening of the CSDMS meeting |
| Passalacqua, Paola |
Opening of the CSMDS 2023 annual meeting |
| Peckham, Scott |
Technology presentation |
| Peckham, Scott |
Coupling Proof of Concepts |
| Peckham, Scott |
Overview and demonstration of the CSDMS (part 1) |
| Peckham, Scott |
IRF procedures |
| Peckham, Scott |
Model coupling demonstration |
| Peckham, Scott |
Analog I: River Tools from concept to Commercial Success |
| Peckham, Scott |
A brief overview of CSDMS, the Community Surface Dynamics Modeling System |
| Peckham, Scott |
Technical overview of the Community Surface Dynamics Modeling System |
| Peckham, Scott |
Advantages of Using the Common Component Architecture (CCA) for the CSDMS Project |
| Pejrup, Morten |
Biological factors responsible for sediment trapping in estuaries |
| Pelletier, Jon |
Challenge: To find data-rich pilot projects that showcase CSDMS capabilities at short and long time scales. |
| Pelletier, Jon |
Modeling the Impact of Vegetation Changes on Erosion Rates and Landscape Evolution |
| Perez, Fernando |
Jupyter Technology |
| Perignon, Mariela |
Predicting the influence of floodplain vegetation on the geomorphic effects of large floods |
| Perillo, Gerardo |
The impact of tidal pumping, turbidity maxima, & density gradients on sediment retention in estuaries |
| Pfeiffer, Allison |
Modeling bed material abrasion at the basin scale: why the classic approach fails us |
| Pico, Tamara |
Rivers and Glacial Isostatic Adjustment |
| Pierce, Suzanne |
Recent lessons from data- and model-driven DSS in the wicked, wild world |
| Piper, Mark |
Community cyberinfrastructure for modelling Earth-Surface processes |
| Plink-Bjorklund, Piret |
Stratigraphic Record of Terrestrial Floods: Impact of Monsoon Pattern Changes |
| Porporato, Amilcare |
On the Practical Importance of Theory in Landscape Evolution Models |
| Powell, Ross |
Interaction of Eustasy, Ice Sheet Dynamics and Glacial Regime Controlling Sediment Yields, Glacial Sequences and High Latitude Continental Margin Architecture |
| Puhl, Eduardo |
Turbidity currents physical modeling at different scales: data parameterization through dimensional analysis and multiple regression models |
| Puig, Pere |
Shelf-to-canyon sediment supply mechanisms in the Gulf of Lions and Eel margins |
| Pyles, David |
Testing the efficacy and uncertainty of outcrop- and model-based studies through collaboration: A field geologist’s perspective |
| Rankey, Gene |
What Do We Know - Carbonate Depositional Processes at different time & space scales |
| Ratliff, Katherine |
Exploring delta morphodynamics using the CSDMS BMI to couple fluvial and coastal processes |
| Ratliff, Katherine |
Exploring Delta Morphodynamics Using the CSDMS BMI to Couple Fluvial and Coastal Processes |
| Reed, Miles |
Designing and applying a landscape evolution model infused with cosmogenic nuclides for geomorphic insights |
| Reeves, Ian |
Impacts of Seagrass Dynamics on the Coupled Long‐Term Evolution of Barrier‐Marsh‐Bay Systems |
| Reilly, Allison |
Extending research on the burden of sea-level rise on the built environment beyond housing |
| Reniers, Ad |
XBeach modeling at a range of temporal and spatial scales |
| Reniers, Ad |
Modeling hurricane impacts on beaches, dunes and barrier islands |
| Restropo, Juan |
Case study #5: Magdalena |
| Robel, Alexander |
Predictability of future sea level rise assessed with a novel stochastic ice sheet model |
| Robinson, Derek |
Coupling natural-human systems at the decision-making scale |
| Roering, Joshua |
Hillslope form, function, and sediment contribution |
| Rogers, Kimberly |
Transdisciplinary Initiative on Environmental Studies (VU TIES) Program |
| Romans, Brian |
Source-to-sink in the stratigraphic record: capturing the long-term, deep-time evolution of sedimentary systems |
| Ross, Matthew |
Tidy and... tedious: empowering large-scale watershed science through inclusive, welcoming data harmonization |
| Rounsevell, Mark |
Integrative assessment modeling |
| Rounsevell, Mark |
Extending ABM approaches to national and continental scales |
| Rugaber, Spencer |
Framework Modeling |
| Ruiz-Villanueva, Virginia |
Modelling instream large wood dynamics in rivers |
| Ryvola, Rebeka |
What’s the forecast for humanitarian use of forecasting tools? Exploring innovative approaches |
| Saemundsson, Thorsteinn |
2007 Morsarjokull Rockfall |
| Saether, Ole |
Natural Organic Matter in Subalpine Catchments |
| Saito, Yoshiki |
Case study #3: Yellow R. / Chao Phraya |
| Saito, Yoshi |
Morphodynamics and evolution of estuaries in response to climate and anthropogenic forcing |
| Salles, Tristan |
A geomorphic perspective on Quaternary biogeographic connectivities across South East Asia |
| Sarg, Rick |
Welcome, meeting logistics, & workshop introduction |
| Schmeeckle, Mark |
Turbulence- and Particle-Resolving Numerical Modeling of Sediment Transport. |
| Scully, Malcolm |
A simple model for oxygen dynamics in Chesapeake Bay |
| Seber, Dogan |
GEON: Geosciences Network: A Research Project to Create Cyberinfrastructure for the Geosciences |
| Seitzinger, Sybil |
GlobalNEWS - C & Nutrient Transport Modeling |
| Shen, Chaopeng |
Differentiable modeling to unify neural networks and process-based modeling for global geosciences under global change |
| Shenk, Gary |
Chesapeake Bay Program Modeling. Past, Present, and Future |
| Sherwood, Chris |
CSDMS Interagency Working Group |
| Slap, Albert |
Data Needs in Natural Hazard Risk Assessments |
| Slingerland, Sudy |
Building a Community Surface Dynamics Modeling System |
| Slingerland, Rudy |
Nature of a Community Surface Dynamics Modeling System |
| Slingerland, Rudy |
The FESD Delta Dynamics Modeling Collaboratory: A Progress Report |
| Slingerland, Rudy |
Welcome |
| Slingerland, Rudy |
Modification of Sediment Fluxes by the Transfer Fluvial System |
| Smart, Peter |
Forward Modelling of Carbonate Sedimentology and Diagenesis: Current Status and Issues |
| Song, Yalan |
High-Resolution Differentiable Models for Operational National and Global Water Modeling and Assessment |
| Stamps, D. Sarah |
3D Computational Modeling of Lithospheric Deformation, Asthenospheric Flow, and Deep Melt Generation with ASPECT |
| Steckler, Michael |
Sequence Stratigraphic Modeling in Landlab |
| Straub, Kyle |
Signals of Relative Sea Level perturbations: Defining the divide between autogenic signal shredding vs. preservation in the stratigraphic record |
| Stucky de Quay, Gaia |
Global flood volumes on Mars: insights into a persisting water cycle |
| Student Presentations, Spring School |
Spring School Student Presentations |
| Student presentations, ESPIn 2023 |
ESPIn 2023 summer student presentations |
| Sture, Stein |
Word of appreciation of the Univ. Colorado Vice-Chancellor for Research |
| Suckale, Jenny |
Multiphase instabilities and extreme events in different natural systems |
| Sullivan, Pamela |
Are rate changes in biotic processes altering subsurface hydrologic partitioning in the Anthropocene? |
| Sylvester, Zoltan |
meanderpy: A simple model of meandering sheds light on channel kinematics and autogenic counter point bars |
| Syvitski, James |
Deltas: environmental perspective |
| Syvitski, James |
CSDMS overview |
| Syvitski, Jaia |
The spectrum of Earth system dynamics models |
| Syvitski, James |
CSDMS introduction |
| Syvitski, James |
Joining History and Space Ages Science |
| Syvitski, Jaia |
The Community Surface Dynamics Modeling System |
| Syvitski, James |
CSDMS updates |
| Syvitski, James |
The Charge of the CSDMS Working Groups |
| Syvitski, James |
CSDMS users |
| Syvitski, James |
CSDMS overview |
| Syvitski, James |
The CSDMS Vision-Collaborative Models |
| Syvitski, James |
Geology, Geography, and Humans Battle for Dominance over the Delivery of Fluvial Sediment to the Coastal Ocean |
| Syvitski, James |
CSDMS introduction |
| Syvitski, Jaia |
CSDMS - Looking back and forward |
| Syvitski, James |
Whole Margin Models: SEDFLUX |
| Syvitski, James |
Welcome to CSDMS 2.0 |
| Syvitski, James |
Source to Sink Numerical Modeling of Whole Dispersal Systems |
| Syvitski, James |
Closing of the meeting |
| Syvitski, James |
CSDMS overview |
| Syvitski, James |
Fall 2009 CSDMS WG Update |
| Syvitski, James |
Fall 2009 CSDMS WG Update |
| Syvitski, James |
CSDMS overview |
| Syvitski, James |
Near Term Sea Level Change on Sediment Retention in Estuaries |
| Syvitski, James |
CSDMS introduction |
| Syvitski, James |
The Community Surface Dynamics Modeling System develops, integrates, archives & disseminates software to define the earth's surface dynamics |
| Syvitski, James |
CSDMS accomplishments |
| Syvitski, James |
CSDMS updates |
| Syvitski, James |
Overview meeting |
| Sømme, Tor |
Use of source-to-sink concepts to provide insight to the stratigraphic record |
| Tangi, Marco |
D-CASCADE: a basin-scale, dynamic model to analyze river sediment (dis)connectivity and its response to anthropic pressures |
| Tarboton, David |
Overview of HIS |
| Tas, Silke |
Modelling chenier dynamics in the context of mangrove-mud coasts: A challenge across spatial and temporal scales |
| Tasich, Chris |
Equilibrium elevation of the lower Ganges-Brahmaputra-Meghna Delta |
| Team 1, ESPIn |
How vegetation influence Landslides and landscape Evolution in the Longterm |
| Team 2, ESPIn |
Short-term Landscape Evolution in Response to Mass Wasting |
| Team 3, ESPIn |
Post-Glacial Landscape Lab: Exploring the Dynamic Environments of
Glacial Retreat |
| Team 4, ESPIn |
Channel Evolution - f(Water) |
| Team 5, ESPIn |
Coupling CEM and HydroTrend to assess links between rivers and coastal morphology |
| Tessler, Zach |
From Relative Sea Level Rise to Coastal Risk: Estimating Contemporary and Future Flood Risk in Deltas |
| Tetzlaff, Dan |
Whole Margin Models: SEDSIM |
| Thorn, Colin |
New dating techniques for Paleosols |
| Todd-Brown, Kathe |
Global soil carbon potential – What if everyone is right and where do we go from here? |
| Tucker, Greg |
Nature of a Community Surface Dynamics Modeling System |
| Tucker, Greg |
PyMT Demonstration |
| Tucker, Greg |
State of CSDMS |
| Tucker, Greg |
Landscape Evolution Models |
| Tucker, Greg |
Charge to Working Groups |
| Tucker, Greg |
State of CSDMS |
| Tucker, Greg |
Overview of Terrestrial Working Group Activities |
| Tucker, Greg |
Introduction for the CSDMS 2021 annual meeting |
| Tucker, Greg |
CSDMS tools for flood modeling |
| Tucker, Greg |
CSDMS 3.0 updates |
| Tucker, Greg |
CSDMS Overview and Update |
| Tucker, Greg |
State of CSDMS |
| Tucker, Greg |
Modeling geosphere and biosphere: opportunities, growing pains, and resources |
| Tucker, Greg |
Terrestrial surface-dynamics modeling: lessons and capabilities |
| Tucker, Greg |
Introduction to the Natural Hazards Modeling Workshop |
| Tucker, Greg |
Overview meeting |
| Ulanowicz, Robert |
Process Ecology: A Step beyond Physics |
| Upton, Phaedra |
Coupling geodynamics and surface processes |
| Upton, Phaedra |
Models meet Data, Earth Surface meet Geodynamics |
| Upton, Phaedra |
Earthquake-induced landslides and landscape dynamics: The 2016 Kaikōura Earthquake and response |
| Verburg, Peter |
An overview of current global human dimension methods: Land use and land cover change models |
| Villaret, Catherine |
The Telemac system, from small scale processes to large scale applications |
| Voinov, Alexey |
Exploring climate mitigation and low-carbon transitions: new challenges for model integration |
| Voinov, Alexey |
Why Community Modeling? |
| Vorosmarty, Charles |
Global Change Impacts on Deltas |
| Vorosmarty, Charles |
Introducing the Framework for Land-to-Ocean Linkages |
| Wagemaker, Jurjen |
Using online media to connect flood risk management to the ground |
| Walsh, Brian |
Integrated Assessment Models for decision making under uncertainty |
| Warburton, Jeff |
Peaty Rivers and Carbon budgets |
| Ward, Dylan |
Modeling the glacial-interglacial impact of the Pacific trade wind inversion on the geomorphology and hydrology of the Big Island of Hawai'i |
| Warrick, Jonathan |
A Summary of the Source-to-Sink Sediment System of the Semiarid Santa Barbara Channel, California |
| Washburne, Jim |
SAHRA Ed-KT Programs: Nov 2009 |
| Weiss, Robert |
Simulating the tsunami hazard: quantitative predictions |
| Werder, Mauro |
Modeling channelized and distributed subglacial drainage in 2D |
| Westerink, Joannes |
Storm surge model ADCIRC for risk assessment |
| Wheatcroft, Robert |
Timing is Everything: The Role of River-Ocean Coincidence in Ocean Sediment Dispersal and Accumulation |
| Wiberg, Patricia |
Opening meeting |
| Wiberg, Patricia |
CSDMS Users |
| Wiberg, Pat |
Overview Marine WorkingGroup |
| Wiberg, Patricia |
Welcome |
| Wiberg, Patricia |
Mechanisms for Entrapment of Sediment Reaching the Coastal Ocean |
| Wiberg, Patricia |
Scaling marine sediment transport |
| Wiberg, Patricia |
Welcome |
| Wiberg, Patricia |
Opening of the meeting |
| Wickert, Andrew |
Simulating alluvial river evolution from geological to human time scales |
| Wickert, Andrew |
Feedbacks between surface processes and flexural isostasy: a motivation for coupling models |
| Willis, Mike |
Private Eyes are Watching You |
| Wimmler, Marie-Christin |
Advancing Ecological Modeling with pyMANGA: Modularity and Reusability for Robust and Reproducible Research |
| Wolski, Rich |
HPC Modeling experiences |
| Wright, Kyle |
Apples to apples: Comparing the transport patterns of a wide variety of materials within a unified reduced-complexity modeling framework |
| Yager, Elowyn |
Predictions of bedload transport in vegetated channels: uncertainties and steps forward |
| Yanites, Brian |
Reconciling landscape models with reality: a spectrum of success |
| Young, Michael |
Improving soil models by connecting scientific disciplines |
| Young, Simon |
Application of EO in parametric insurance instruments for risk financing and climate resilience in support of the 2030 development agenda |
| Yu, Manzhu |
Spatiotemporal methodologies for the analysis and prediction of extreme weather events |
| Zellner, Moira |
Participatory Complex Systems Modeling for Environmental Planning: Opportunities and Barriers to Learning and Policy Innovation |
| Zhang, Fengyuan |
Interoperability engine design for model sharing and reuse among OpenMI, BMI and OpenGMS-IS model standards |
| de Mutsert, Kim |
Modeling a coastal environment with human elements |
| de Sherbinin, Alex |
Deltas: human perspective (urbanisation, agriculture) |
| discussion, Round the table |
Round the table discussion day 3 Afternoon |
| van der Wegen, Mick |
Estuarine morphodynamics: better be certain about uncertainty |
