Property:Description of your CSDMS-related interests member

Application of Sedflux and Hydrotrend for the modeling of martian ancient fluvial reaches and formation of river deltas  +

Application of hydrodynamic numerical models  +

Application of open-source modeling to fluvial geomorphology  +

Applications of modeling to erosion processes, geodesy, and active tectonics.  +

Apply S2S in Venezuela through research papers (thesis)  +

Apply to my research  +

Arctic related research  +

Art, Music,Sports and Computers.  +

As a beginner in ocean Modelling, I would like to setup and study the ocean modelling  +

As a general interest, colloboration and knowledge-transfer in this group sems extremely atractive to me.As more specific interest, I have seen the necessity of interdisciplinary approach on environmental issues. Solely picking one phase; such as saturated zone groundwater modeling, almost never results in a sustainable management choice. I want to first learn the modeling very well, then contribute to the more comprehensive studies on modeling/simulation in especially hydrological related cases, both water/sediment and solute transport.  +

At the Netherlands eSciencecenter we are working on an e-infrastructure for hydrological models, together with Delft University of Technology. We are interested in CSDMS as it offers similar functionality. Maybe there are opportunities for collaboration.  +

BING  +

Basin simulation  +

Be ready to race with updated world  +

Beach  +

Beach-dune interaction, coastal morphodynamics, wave-driven processes, aeolian sand transport, natural and human-impacted coastal dynamics, bio-physical processes, nature restoration  +

Better modeling  +

Bio-geomorphology, wetlands, coastal dunes  +

Biogeochemical Ocean Modeling, HABs Modeling.  +

Broad interests are the impacts on coastal environments, environmental changes in coastal zones, socio-economic and ecological vulnerability of deltas, urban vulnerability, coastal management and sustainable management of coastal and tropical environments. More specific research topics are related with vulnerability of the cities within the Amazon Delta and Estuary, urban infrastructure, socio-economic indicators and flood risk assessment.  +

CSDMS 2022 Annual Meeting, "Environmental Extremes and Earthscape Evolution (E4) is a great opportunity to learn about environmental hazards from the top scientist in the world. It is a unique opportunity for networking and finding out new discoveries in this field.  +

CSDMS Executive Assistant  +

CSDMS is a useful learning environment for my marine dynamics research where I am joined the groups that I love.  +

CSDMS standard names  +

CSDMS tools are going to be a great resource for me as I work to complete my masters project. We have mapped an artificial reef site on the inner continental shelf with five repeat Multibeam and sidescan surveys from ship and AUV platforms. There is clear evidence of scour around the 900+ reef objects, especially post Hurricane Sandy and multiple Nor'easters. I have a good and growing background in Matlab and Python and some C++, yet I have found I still struggle with understanding some concepts in computer science such as model compiling and optimization (especially for a multi-processor cluster or supercomputer). Colleagues at the Center for Coastal and Ocean Mapping have been developing great visualization tools, which I have starting working on for my masters. We have run some simple models in COAWST, yet I realize we need to move into more advanced modeling. By removing the concern, time, and effort to couple models and with high-power computing resources, CSDMS tools will greatly advance our goals of taking coupled modeled results into our developing visualization products. I also expect the growing collaboration in CSDMS community will again find me using these resources in my future career - in whatever surface dynamics projects I become involved. It was a great surprise to come across this resource at a key time in my developing career.  +

Carbon Cycle, phenology, air pollution  +

Carbon cycle  +

Carbon cycling in the terrestrial marine interface. Global scale biogeochemical cycling  +

Carbonate models  +

Carbonate sedimentology and Stratigraphy  +

Carbonates diagenesis modelling  +

Chesapeake Bay hydrodynamics  +

Climate and landscape dynamics  +

Climate, hydrology and atmospheric activity of the Holocene in North America.  +

Climate, tectonics, and biotic effects on topographic evolution, over geologic timescales.  +

Climatic and tectonic control on chemical weathering and physical erosion rates Landscape evolution models Environmental fluid dynamics  +

Co-chair of HD  +

Coastal & littoral evolution, processes & morphodynamics Tsunami & storm deposits Optical dating Sedimentology & Petrophysics  +

Coastal Hazard Modelling  +

Coastal Model  +

Coastal and estuaries dynamics  +

Coastal and terrestrial geomorphological modelling, with a particular interest in understanding the influence of geology (lithology & structure) in the modelling of landforms and landscapes  +

Coastal change hazards, sediment transport modeling, nature-based adaptation  +

Coastal circulation/tidal modeling; Sediment transport  +

Coastal evolution over decadal and centennial timescales; marine sediment transport  +

Coastal geomorphic change, Slope stability  +

Coastal hazards, and other climate change related impacts  +

Coastal hazards, coastal management, fluvial sediments  +

Coastal hydrology  +

Coastal modelling  +

Coastal morphodynamics (PhD student)  +

Coastal morphodynamics, coupled human-landscape dynamics.  +

Coastal morphodynamics, large-scale features  +

Coastal morphologic modelling  +

Coastal ocean/watershed coupling; Hydrotrend  +

Coastal oceanography, extreme events, and coastal management  +

Collaboration with Albert Kettner and James Syvitski on applying the (BQ)ART model on small river systems in Europe  +

Combined analysis of Glacial/proglacial/fluvial adjustment to climate change  +

Computational Fluid Dynamics; Coastal and Fluvial Hydraulics; Sediment Transport; Geomorphology  +

Computational Investigation of geophysical flows. Computational research in the general area of fluid dynamics and transport phenomena, with a special emphasis on geophysical fluid dynamics. Highly resolved direct numerical simulations are to be conducted, in order to obtain insight into the physical mechanisms that govern the evolution of gravity and turbidity currents.  +

Computational modelling of sediment-laden density currents  +

Connecting the CSDMS community to USGS water data  +

Contaminant Transport in unsaturated media  +

Contribution, exposure, and learning from researchers.  +

Costal geomorpholoy and sedimentology  +

Coupled Human-Natural Systems, Surface Process Modeling, Agent-Based Modeling, Complex Adaptive Systems  +

Coupled climate and silicate Earth systems  +

Coupled human-natural modeling for coastal protection strategy  +

Coupled numerical modelling of surface and deeper processes.  +

Coupling atmospheric models with CSDMS model components.  +

Coupling geodynamics with landscape evolution  +

Coupling surface dynamics with surface flows  +

Critical zone, water transport in fractures, SPAC  +

Cryosphere  +

Cryosphere. I don't see a Cryosphere Focus Research Group here.  +

Currently I'm interested in using the PLUME model to test some hypothesis about sediment clearance from the Elwha River plume. The study is largely observational, but the PLUME model may add some insights regarding natural variability.  +

DEM and for landslide and flows, sediments tranport  +

Dear Sir/ Madam I am so thankful if you add me as one of the members in the group list. My research Interests would be Tropical Meteorology, Indian Monsoons, Hurricane/ Cyclone prediction, Ocean Surface studies, Air Quality Modeling, Remote Sensing  +

Debris Flows, critical zone interactions, wildfire  +

Debris flow erosion modelling  +

Decision Making related to coastal flood hazards and risk  +

Deep-water  +

Delta morphology and stratigraphy  +

Delta processes, fluvial processes, coastal processes  +

Delta sensitivity to environmental change, coastal zone oceanography  +

Deltas Simulation  +

Denudation chronology  +

Deslizamientos de tierras producto de modificaciones antropicas  +

Develop new collaborations for research  +

Developer of the ANUGA flood and tsunami software package.  +

Developer on Landlab  +

Development and application of eco-geohydrological models  +

Development of GEOCLAW, geophysical fluid simulation software  +

Digital terrain and Earth surface process modeling for geohazard and risk assessment in both terrestrial and marine settings.  +

Distributed Hydrological model  +

Distributed hydrologic, snow redistribution, and landscape evolution modeling. In particular, the use of RHESSys / Noah / other hydrologic models to simulate bark beetle impacts on hydrology, the use of SNOWMODEL to analyze snow redistribution and it's potential effects on ice core isotopic composition, and a new model to simulate the evolution of Coral Atolls.  +

Distributed hydrology models  +

Doing tsunami modelling using the GeoClaw code  +

Drought, Water Resources Management, Wind Erosion and Dust Storm in Arid and Semi-Arid Areas  +

Dune Dynamic Models  +