Property:Description of your CSDMS-related interests member

- Numerical Forward Modeling - Seismic Forward Modeling - Carbonate platform in sin-rift setting  +

- PhD in Environmental Sciences - hydrodynamic modelling of transitional and coastal areas - involved in the Preparatory Phase project for the DANUBIUS Research Infrastructure - Modelling Node and Po Delta and North Adriatic Lagoons Supersite (www.danubius-ri.eu/).  +

- Terrestrial ecosystem modeling and assimilation of multi-source remote sensing data to improve these models.  +

- distributed rainfall-runoff model - urban storm runoff model  +

1) Glacial retreat and advances 2) Isostasy and glacio-isostatic modelling 3) Interactions between tectonics and volcanism 4) Links between surface processes (particularly erosion and volcanic/glacial loading) and subsurface crustal response 5) Volcanic hazard mapping and pyroclastic flow modelling 6) Ice sheet - Subglacial volcano - Climate - Crust feedback cycles  +

1) use of models to explore coastal and submarine morphodynamics for teaching and research 2) use of models to explore evolution of sedimentary fabric and structure for education and research  +

3D hydrodynamics numerical model developing  +

A farame work coupoling ofr Topoflow and the WRF model.  +

A quantitative understanding of marine systems from the continental shelf to the supratidal zone, with a focus on estuarine morphodynamics  +

ADCIRC  +

Active tectonics, topographic evolution  +

After my professional experience (17 years) as a university professor of a wide spectrum of disciplines (e.g., Ecology, General Microbiology, Human Anatomy and Physiology, Cell Biology, Classical Genetics and Evolutionary Biology), I became aware of the necessity of developing an interdisciplinary understanding of ecosystem functioning based on physics. Therefore, my current research activity is addressed to develop a general model of ecosystem functioning based on plausible theoretical links between principles of ecosystem ecology, thermodynamics, thermostatistics and quantum mechanics. The main part of the results from this effort are included in several articles published in the journal Ecological Modelling. The main advantage of the above-mentioned set of models is its validity for almost any kind of ecosystem following a fractal structure. From my research experience in economics, it seems to be that this model, with certain modifications, could be also useful to understand macroeconomics performance as well as economic development processes, in a sort of TOE which would interconnect Physics, Biology and Social Sciences.  +

Agent Based Modelling  +

Agent-based modeling of complex systems and applications toward sustainable development, co-generation of knowledge, and decision making.  +

Agricultural/Environmental Modeling  +

Aid in advancing/refining landscape evolution & hydrology models as a result of their outputs when applied to my geomorphic research.  +

All models providing results on coastal : wave, current, water level, morphodynamics, shoreline evolution. From small to large scales.  +

Am very interested in hydrological modeling and surface runoff at the global scale.  +

An internal bore is a type of large-scale geophysical flow where a shock-like height discontinuity propagates along an interface between two fluids of different densities. Internal bores are responsible for many complex and interesting atmospheric and oceanographic phenomena. The most visually striking and well-known example of an internal bore is the Morning Glory cloud formation off the northern coast of Australia (pictured at left), which is formed by the interaction of a sea-breeze with a temperature inversion layer. Internal bores can also be formed in the atmosphere by cold outflows from thunderstorms. In marine environments, internal bores can arise from several mechanisms such as the interaction of the tides with ocean floor topography, or by gravity current flows past submarine obstacles. For the last 60 years, people have been developing and refining analytical models to describe the propagation of internal bores. If the densities of the two fluids are very different, as is the case for a tidal bore, which propagates along an interface between water and air, a very accurate model describing a bore's propagation as a function of its size can be obtained by conserving mass and momentum across a control volume encompassing the more dense layer of fluid. However, if the densities are very similar, the upper fluid cannot be neglected. In this case, there is not enough information to come up with a closed form model from a control volume analysis unless we make some assumption about the energy loss across the bore. That's where we come in. To gain insight into how energy evolves and dissipates within an internal bore, we simulate them using two and three-dimensional direct numerical simulations. An example of one of our two-dimensional simulations is shown below. These simulations allow us to directly measure the energy and how it evolves as the bore propagates. Based on our results, we are able to propose a new analytical model for internal bores which takes into account mixing at the interface between the two layers. Our new model accurately predicts internal bore's propagation velocities, and can also predict the amount of energy lost to mixing. These results will soon be published in the Journal of Fluid Mechanics. We are now working on extending our model and simulations to non-Boussinesq internal bores so we can bridge the gap between Boussinesq and single-layer bores.  

Anthropogenic activities on tidal range variations in the Delaware River  +

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  +

Dynamic Model  +

Dynamic coastal changes, overnight and over years  +

ESPIn  +

Earth Surface Processes Modeling  +

Earth Surface Processes, Geophyisics, Programming  +

Earth surface dynamics  +

Earth-surface processes and basin sedimentation; undergraduate science education  +

Earthquake-induced landslides and landscape dynamics  +

Eco-hydrological modeling, droughts, fire  +

Ecogeomorphology & Landscape evolution; Quaternary fluvial environments  +

Ecohydrological Modelling in agricultural systems  +

Ecological modeling, Aquatic systems, integrated coastal modeling  +

Ecosystem modeling and coastal restoration, Toxicology  +

Effects of anthropogenic activities on the dynamics of geomorphological processes in arid zones. Modeling. Debris flows generation. Landscape and geomorphic restoration  +

Environmental Management of Landscapes  +

Environmental hydraulics sediment transport multiphase flow CFD  +

Erosion modelling, UAV data acquisition, spatial analysis, vegetation growth modelling, coupling models of human and natural systems  +

Ethnography of Flooding and Flood Control Geoscience as Material Culture  +

Exploring CSDMS models and practices  +

Fault modeling  +

Feedbacks between tectonics and surface processes.  +

Fjord sedimentation / IRD modelling  +

Flood Geomorphology  +

Flood hazard, scour  +

Fluvial Geomorphology, River Networks, Complexity, Self-Organization, Landscape Evolution  +

Fluvial and Shallow Marine stratigraphy  +

Fluvial and coastal processes. Numerical modelling, laboratory and field work. Fluid dynamics and sediment transport.  +

Fluvial and deltaic surface processes along with resultant stratigraphy  +

Fluvial dynamics, hydraulics, sedimentology  +

Fluvial geomorphology  +

Fluvial modelling  +

Fluvial, coastal and deltaic modeling  +

Fluvial, estuarine, deltaic, coastal and marine environments  +

For a class I am taking.  +

For my thesis  +

For use at the NCED Summer Institute  +

Forward modeling of marine basins  +

GENESIS Model  +

GEODYNAMICS ,BASIN , MARINE , HYDROLOGY  +

GIS Hydrologic Modeling of Surface Dynamics  +

GLOF modeling  +

Geodynamic processes modelling  +

Geodynamics, tectonics, landforms, tectonic geomorphology  +

Geohazard Mitigation  +

Geohazard prevention, landslide and debris flow  +

Geomorphic change and fluvial sediment dynamics in tectonically active landscapes.  +

Geomorphic change detection, modeling, and prediction  +

Geomorphic modeling, SIESD  +

Geomorphology  +

Geomorphology  +

Geomorphology of human disturbance and related risks by natural disasters  +

Geomorphology, Hillslope erosion, hydrology, Critical zone science  +

Geomorphology, community modeling  +

Geomorphology, fluvial geomorphology, sediment transport, landscape evolution, GIS  +

Geomorphology, hydrology, modelling  +

Geomorphology, landform evolution, river basin studies  +

Getting a better understanding of the available models and appropriate applications for future water resorce decision making in the Walla Walla  +

Glacial Isostatic Adjustment, Meandering Rivers  +

Glacial erosion, inverse models  +

Glacial landscape evolution; coastal change  +

Glacial modelling  +

Glacier dynamics; climate change  +

Glacier erosion & sedimentation  +

Glacier modelling; Quaternary climate change; geomorphology; geochronology  +

Glacier-hydrology interactions  +

Global-scale coupling of the Water Balance Model (WBM) to 2-D LISFLOOD-FP inundation modeling for long-term event-continuous flood simulations.  +

Groundwater  +

Groundwater sustainability in agroecosystems focusing on vadose-zone and groundwater hydrology, contaminant transport and fate, data-driven and physics-based modeling, and engineering solutions including managed aquifer recharge and green infrastructure.  +

Growing technical network, help people, access resources and ask problems  +

Growth, history and ecology of coral reefs  +

HIDRODINAMIC  +

HPC, computational science and engineering education  +

Hello, I am an undergraduate student at the University of Victoria who is working on completing her honours in Geography. For my project, I am hoping to use the model Hydrotrend to model change in river discharge and sediment load in the Skeena watershed in British Columbia.  +

Help with content  +

High-performance computing applications in coastal sediment transport, environmental fluid mechanics  +

Highly parallel benchmarking and computing  +

Highly parallel benchmarking and computing  +

Hydraulics and sediment transport.  +

Hydraulics, sediment transport, and river-driven landscape evolution  +

Hydro-Trend Modelling  +

Hydro-geomorphologic modeling  +

Hydrodynamic Model  +

Hydrogeochemistry, hydrology and Environmental Engineering  +

Hydrogeology Geomorphology Sedimentology  +

Hydrolody and mathematicals models  +

Hydrologic and Hydraulic Modeling  +

Hydrologic modeling, flood forecasting, cyber infrastructure  +

Hydrological Applications with remote sensing  +

Hydrological Modelling, Automation, Geo-spatial Modelling  +

Hydrological and Hydraulic modelling for flood simulation and management and Machine learning to improve model predictions  +

Hydrological modeling, 2D models, Wetlands hydrology, Wadi hydrology. Modelling in ungaged basins. Lisflood-Fp, SWAT, GIS and modelling  +

Hydrological modelling  +

Hydrological modelling, fluvial morphology, watershed erosion, and coastal morphodynamics, and education.  +

Hydrological models, precipitation models, topographic information processing  +

Hydrology  +

Hydrology .. integration of hydro and economics  +

Hydrology and Hydrogeology  +

Hydrology model  +

Hydrology, Glaciology, Porous Media  +

Hydrology, geomorphology, and ecology  +

Hydrology, rivers, and BMI  +

I am PI/organizer of the Coupling Surface and Tectonic Processes workshop (25-27 April 2018, Boulder)  +

I am PhD student I am looking for any research about Ocean energy with focusing on the wave energy.  +

I am a Master's student in geomorphology at San Jose State University, and am interested in modeling earth surface processes.  +

I am a PhD at INSTAAR, using simple glacier models to reconstruct past glacier fluctuations and explore the climate sensitivity of small glacier and ice cap systems at high latitudes.  +

I am a PhD student and I am currently working on understanding the keen relationship between granular systems and fluid dynamics to explain how cohesion influences fluvial erosion. I am currently fashioning the skills in computational techniques to model and stimulate cohesive grains coupled with CFD; thus, the interest in CSDMS.  +

I am a PhD student who does climate, biogeochemistry, and marine ecosystem modeling, largely with a focus on paleoclimate and future climate change.  +

I am a college student of Geology,so I want to acquire the latest news of CSDMS,so please  +

I am a computer scientist interested in building scientific models that combine domain expertise with data.  +

I am a developer of SIGNUM, a landscape evolution model hosted on CSDMS. My main interest is remote sensing, with applications to hazard monitoring.  +

I am a doctoral student at the University of Minnesota under Donna Whitney and Christian Teyssier. I am focused on designing and executing numerical experiments on the development of continental lithosphere under extension. I am currently working on a suite of numerical experiments that test the relative importance of sedimentation and lithospheric rheology on the localisation of strain within rifts.  +

I am a geomorphologist by profession and I am new to learning modelling. CSDMS will help me fulfill my desire to be a landscape modeller.  +

I am a geomorphologist, PhD student in Eötvös Loránd University, Budapest. My topic is related to drainage network development in karstic areas, mainly focus on the formation of deep and steep walled valleys. I'm interested in topics in connection with karst, landscape evolution, valley developement, gorges, climate caused landform changes.  +

I am a grad student at CSDMS  +

I am a graduate student at National University of Science and Technology, Islamabad, Pakistan. I am doing my research on developing GIS based flood awareness system and I need to experiment on various hydrological models. I will be using the models on data of my region. I will contribute code optimisation or a GUI component based on the model for benefit of the community.  +

I am a model developer and user undertaking research and consultancy in New Zealand rivers and coasts. I am particularly interested in morphological modelling of braided gravel bed rivers.  +

I am a new professor and I am currenlty building my working network  +

I am a postdoctoral researcher in the fields of fluvial geomorphology, landscape evolution and hydrology.  +

I am a sedimentologist and I use recent to ancient field datasets to say something 'reasonably quantitative' about our Earth's past. Vague huh? I'd like to get involved with CSDMS to explore possibilities of using models to test specific hypothesis through collaboration with modellers. I am also interested in using 'big data' to place bounds on sedimentary system behavior from a simplified viewpoint.  +

I am a student of geology at Colorado College, learning how to build landscape models.  +

I am a tectonic geomorphologist, particularly intrigued by tectonic and surface processes patterns within subduction zone forearcs. I have been working with cosmogenic nuclides and I am generally a field geologist, but I am increasingly interested in learning numerical skills to complement my research profile.  +

I am an environmental engineering undergrad working on a research project in earth systems dynamics.  +

I am an intern in the Risk Assessment department of the INL. The Risk Assessment department is currently trying to assess the risk and damage that occurs when a nuclear plant is flooded—whether by tsunami, dam or levee break, or rainfall.  +

I am an underwater archaeology who reconstructs past environments on the continental shelf.  +

I am assisting with the NCED summer institute taking place mid August at the St. Anthony Falls Labratory in Minneapolis.  +

I am currently a PhD student at the University of Florida. As a part of my proposed PhD work, I am considering the use of WBMsed to assess the cumulative effects dams, climate change, and land use/cover change on the Madeira Basin sediment loads. With results from my proposed two-model exercise, I will assess the sedimentation rate of the Jirau Dam in Brazil along the Madeira River.  +

I am dedicated to research in hydrology, numerical methods and geoprocessing  +

I am doing a presentation on Coastal Modelling for my Adv. Dipl. in GIS at BCIT.  +

I am enrolled in a Irina Overeem's surface modeling course this semester.  +

I am insterested in modeling techiniques and its applications. As research and education tools.  +

I am interesetd to use the Web Modeling Tool, more specifically the HydroTrend model. This is to obtained sediment discharge values from river to the continental shelf.  +

I am interested in Coastal Modelling - hydrodynamics, sediments, energy balance.  +

I am interested in Mineral Weathering and Carbon Dioxide Sequestration through Mineral Weathering.  +

I am interested in Use of individual-based and spatially explicit modeling to understand and predict ecosystem and landscape change. Thanks, Radhey. I am very interested in providing insight about EKT to my students with help from CSDMS.  +

I am interested in analyzing the impacts of land-use practices on the stream discharge behavior using distributed hydrological models  +

I am interested in application of technology and science to community based disaster management, specifically in prevention and mitigation.  +

I am interested in coupling atmospheric models to glacier and landscape evolution models.  +

I am interested in exploring questions in terrestrial hydrology and the use of modeling to identify process controls and sensitivities.  +

I am interested in fluvial geomorphology and how it relates to tectonics. I write code in R to model the evolution of stream profiles over time and to create analogs for observed river profiles in the southern Appalachians and in the Northern Rockies. I am interested in improving my models by incorporating other parameters such as rock strength and fabric.  +

I am interested in how process-scale hillslope erosion affects longer-term landscape dynamics, and how we can use hillslope morphology and soils to document landscape evolution.  +

I am interested in how to integrate HydroShare and CSDMS.  +

I am interested in modelling carbonate platform development and evolution in rift basin and Carbonate depositional pattern in salt related structure  +

I am interested in morphodynamic processes and shoreline dynamics of Niger Delta. I am attempting to assess the shoreline movement using readily available satellite images via the Google Earth Engine and others. I also attempt to model the future morphodynamics response of the Niger Delta under various forcing scenarios.  +

I am interested in numerical modelling for coastal process  +

I am interested in participating in the "Coupling tectonics and surface processes workshop". I am currently developing my PhD thesis, which focuses on the structural development of the Southern Central Andes (at c. 34º30'S), under the context of doubly-vergent crustal wedges (e.g., Willet et al., 1993). I have carried out research under the scope of my doctoral thesis by means of analogue modeling, structural analysis and (hopefully) thermochronology. I am interested in the feedbacks in between surface processes and deeply-rooted structural proceses, and I would like to apply this to my work.  +

I am interested in river and landscape evolution, and application of fluid mechanics to a variety of planetary problems. I also engage in river restoration and dam removal. On the CSDMS side, I am interested in how the community builds knowledge in these research areas, including community driven modeling frameworks.  +

I am interested in sedimentary processes modeling, with focus on sediment accumulation rates and carbon burial rates modeling.  +

I am interested in the extraction of marine and coastal data from remote sensing products.  +

I am interested in the knowledge around geomorphology and natural hazards in tropical latitudes. My current research project is about debris flow in some colombian watersheds.  +

I am interested in the long-term evolution of the solid Earth. One research approach I take is to link surface processes to deep Earth dynamics through quantitative landscape evolution simulation. CSDMS provides valuable resources for doing this research.  +

I am interested in using CSDMS and integrating geophysical codes into CSDMS  +

I am interested in using Landlab. Looking forward to attending useful webinars, workshops, and other related events.  +

I am interested in using and developing landscape evolution models and topographic analysis as to better understand geomorphologic, tectonic and climatic processes.  +

I am interested in using currently available models to test hypothesis of external controls on ancient depositional systems. In the future, I may consider developing new models to help with this process.  +

I am interested in using models for research and as an educational tool  +

I am interested in using numerical models to better understand surface processes and hydrology.  +

I am interested in using the HPCC for my model  +

I am interested to work with CSDMS in assisting communities prone to vulnerable and hazards areas such as volcanic eruption, climate change, sea level changes  +

I am looking for my PhD in hydrology related field. If i get some opportunities i would like to join with CSDAM.  +

I am looking forward to PhD position (Scholarship)  +

I am mainly interested in Quaternary climate oscillations and landscape evolution  +

I am mostly interested in Land-atmosphere interactions  +

I am new to numerical modeling!  +

I am one of the developers of the numerical model GeoClaw. My interests lie primarily in application driven model development for coastal hazards such as storm surge and tsunamis.  +

I am participating in the NCED Summer Institute on Earth-Surface Dynamics.  +

I am participating to SIESD 2012 training  +

I am particularly interested in computationally-intensive modeling and synthesis of large-scale data sets for watersheds and other ecosystems. My PhD research focuses on long-term export of nutrients and sediment from the Chesapeake Bay watershed. Specific areas include (1) evaluation of long-term water-quality trends and uncertainties; (2) improvement of statistical methods for riverine flux estimation and trend analysis; (3) analysis of patterns of watershed constituent export and controlling factors. As a watershed data analyst (assistant research scientist) at the USEPA Chesapeake Bay Program (CBP), my main role is to work with professionals, managers, and scientists in the Chesapeake Bay partnership to explore natural and anthropogenic-based causes behind the observed current status and long-term trends in the water quality of the streams and rivers to the Chesapeake Bay, which is critical to defining the success of Chesapeake Bay and watershed restoration efforts to date and to making science-based management decisions in the foreseeable future.  +

I am professor and Head of the Department. My interests involve two main research areas in hydro morphology and human impact on the environment, in relation to fluvial processes, in a ‘source to sink context’ and sedimentary environments and sequence stratigraphy in relation to hydrocarbon exploration. I am supervisor in 4 PhD students, two of them in the research field of hydro morphology and fluvial sedimentology, one in Sequence Stratigraphy using SFM modeling and one in the field of sedimentology- paleo hydrology with isotopic geochemistry. My research students and my are very interesting to implement modeling in our research.  +

I am representing the TELEMAC system and the consortium of organisations managing its developments and distribution as open source software (www.opentelemac.org). Our interests in CSDMS are increased participation in collaborative research projects with peers and knowledge transfer.  +

I am researching flood inundation modelling in data-sparse deltas and determining what detailed is needed and what should be included. Therefore, i am interested in a number of different working groups.  +

I am studying impacts of climate change on water supply and quality in the Great Lakes region.  +

I am taking the SIESD course at the University of Minnesota this summer and need an account.  +

I am taking the SIESD summer workshop  +

I am taking the online summer course  +

I am the Section Head for the Sediment Dynamics Section at the U.S. Naval Research Laboratory. We are an interdisciplinary team of over a dozen scientists and engineers. One of our long term research goals is to produce accurate and efficient forecasts for seafloor, estuarine and riverine morphodynamics across the full range of relevant length and time scales. Our technical approach is focused on the development of a paradigm for operational modeling of complex multiscale geophysical flows that links models from different scales with different physics within a probabilistic framework.  +

I am the lead developer of the Modular Coupling System for Shelves and Coasts (MOSSCO, http://www.mossco.de); I would like to assess mutual benefits/synergies between CSDMS and MOSSCO.  +

I am using landscapes to estimate the long-term uplift shape  +

I am very interested in modeling and spatial data analysis. I am also very interested in atmospheric particle transport and using GIS tools to model changes to the landscape and contaminate flows.  +

I am working on climate change effects on my hometown water resources  +

I am working on hydro-geomorphic processes.  +

I develop physical oceanographic models and related instrumentation. I am also engaged in a brief collaboration with uplands ground and surface water modelers.  +

I develop the GeoClaw software and work on various applications, primarily related to tsunami modeling.  +

I do laboratory scale experiments on sediment transport involving suspended load and the role of particle-turbulence interaction. I have an interest in interacting with modelers and code developers to help improve how such flows are modeled.  +

I do research in land surface modeling. So, I am interested in the data CSDMS.  +

I enjoy developing and extending numerical models to explore earth systems and their impact.  +

I focus on landslide modeling.  +

I had conducted few researches in modelling in geography and ecology. Now, I want to grow my research interests which I think will accomplish from CSDMS. Basicaly, I wanted to link geographical information to conservation issues.  +

I have been working with numerical models for modelling the natural systems, such as the river, the basin, and the delta system for several years. CSDMS is pioneer in modeling the natural system dynamics. The CSDMS community always do advanced modeling work and produce cutting-edge science out of the modeling works. They also have a powerful super-computing facility. I believe, being a member I will learn more about natural system modeling from CSDMS community.  +

I have great interest to participate in the activities of CSDMS. I wish to collaborate with you people in the related field of research. I want to be visiting scientist in your institute to learn the activites of CSDMS. It is possible to give a series of lectures for the benefit of graduate and PhD Students. My research field is earthquake Seismology, Seismic Hazard and Risk analysis and earthquake prediction and forecasts, Landslide hazards, Tsunami hazard  +

I hope to use the resources provided by CSDMS for modeling stream bank erosion and sediment transport in fluvial systems. My current interests are using modeling tools to inform management suggestions for stream and river banks.  +

I interested with CDMS because I worked at university that related with hydrology modelling  +

I just started my PhD at Durham University and I'm working on ecogeomorphological investigation of gully-induced landslides in southern Nigeria. My interest areas lie in geohazard and risks and surface change .  +

I model the glacier drainage system  +

I my recent studies I am working with MITGCM ((MIT General Circulation Model) model and related focus are based on regional scenarios for Renewable Energy at Brazil (mainly hydraulic energy), and support for policy mitigation working group at my institution origin.  +

I need to know information on openings of Ph.D and Post-Doc position  +

I observe sediment transport and deposition in the field, and have benefited from collaboration with CSDMS community members on several occasions.  +

I participate in NCED 2016, UMN, Minneapolis, Minnesota and they introduce CSDMS to me. I realized that research focuses in CSDMS is close to my interested fields, Geodynamics.  +

I participate to ESPIn 2020  +

I take an interest in; 1) Global scale sediment flux modeling, identifying relationships between sediment fluxes and delta morphology changes. 2) Remote observations of Delta Evolution 3) Flooding inundation mapping and hydraulic modeling  +

I use reactive transport models to understand flow, transport, and (bio)geochemical processes in subsurface in various applications. I am interested in knowing more about the general modeling community. I also have started to get involved in CZ research. I see that there is not much (bio)geochemistry focus yet in CSDMS that is related to geochemistry and biogeochemistry processes that are important to CZ formation. I am also interested in knowing how i can contribute to enhance research and eduction in things related to CZ research.  +

I wanna know everything about waster water and the process to descontaminate the accuifer.  +

I want learning about sediment transport models in CFD  +

I want to be an expert in Environmental Geophysics, and I am interested in any assistance I can get from CSDMS  +

I want to become a member of the CDSMS for applying your models in my Phd study.  +

I want to learn the basic principles of and the implementation of Permafrost models. And, hence, to contribute to development of coupled models.  +

I want to use the tools provided by CSDMS to study effect of terrain and vegetaion structure on snowmelt using the topoflow model. Thanks for making this simple interface, all the support and access to the HPCC. I would be sharing my results using images and animation. thanks,  +

I wanted to use the Sedflux models for describe long-lasting sedimentation processes in the Carpathians sedimentary basins (Silesian basin, Godula beds, duration 10 My). I have tried the Sedflux 6.0.64 version, but with problems  +

I will be modeling using Topoflow which appears to use CSDMS in its processing.  +

I will be using the LES code to study turbidity currents.  +

I will be using this tool for a class in the Earth and Environmental Science department for a modeling and problem solving course.  +

I will like to make it grow more  +

I wish to investigate the change in sediment processes with predicted climate changes, and wish to compare a suite of models to see what the differences are.  +

I work as a research assistant at Coastal Research Institute, Egypt. So i interested in coastal studies (erosion, accretion, protection structures and modelling). Nowadays i work on coastal sand dunes for my master degree.  +

I work on both sediment transport and mantle deformation. My research focuses on the formation of rift basins and developing the methods to interpret both the soft and hard rock record. I develop numerical models of sediment transport, lithosphere deformation (and decompression melting).  +

I work on problems associated with the evolution of constructional landscapes (sub-areal and sub-marine) and their preservation in the rock record.  +

I work on sediment transfers from the coastal mountain to the sea and I am interested in LANDLAB notably to couple different elements of the sediment cascade.  +

I work on various aspects of fluvial geomorphology from paleoflood hydrology and landscape evolution to contemporary processes such as low and high flows, sediment transport and connecting the abiotic to the channel ecology.  +

I work with marine, coastal, river, and fluvial modelling, in particular in relation to ecological and water quality modelling. I have a particular interest in applying work to management of the natural resources, and have worked primarily with nutrient cycles, bathing water quality, and coral modelling.  +

I work with the regional model ROMS  +

I would improve my knowledge on the models' description  +

I would like to enhance my skill about modelling and make relationship with other modellers  +

I would like to extend my knowledge in coastal geomorphology studies  +

I would like to learn Landscape Evolution Model which I can apply to my research work.  +

I would like to learn more about recent research, scientific discussion on above selected groups. I also wish to see the event and workshops related to the topic to broaden my skill and knowledge. I also would like to receive some research. job and postdoctoral opportunities.  +

I would like to see how the Gc2d model made by Kessler works. Then I would like to use it to estimate the extent of several glacier in Central Tibet.  +

I would like to use the permamodel to analyze the permafrost variations in my study area. In particular, I would like to see if there is any connection with the location of rockfalls and shallow landslides in the area.  +

I'm PhD student, interested in coarse supply and its dynamic store along drainage network, considering variable forcings related to tropical mountain basins.  +

I'm a Ph.D. candidate in sedimentology and stratigraphy. I try to use modeling to reveal the underlying principles of some sedimentary processes. In particular, I'm interested in the perturbation-response mechanisms of drainage basins, and how the perturbation can propagate downstream and get preserved in sedimentary rocks.  +

I'm a PhD Student at IH Cantabria (Universidad de Cantabria), working on Estuarine Hydrodynamics and Mixing. My research focuses on the development of methodological approaches to allocate Mixing Zones in Estuaries. In order to achieve this task, I need the use of complex numerical 3D simulations coupling hydrodynamics results with nearfield models and, later, hydrodynamics and nearfield results with farfield models. That is why I would like to use the huge capabilities of the beach supercomputer to run my simulations.  +

I'm a PhD student hoping to build my computing and modeling skills so that I can apply them to my research!  +

I'm a geologist from Brazil interested in getting to know the CSDMS project for a possible master course in Brazil.  +

I'm a postdoc in the Universidad Austral de Chile, working in the effect of land use change on large scale sediment mobilization. I have to learn about models and apply them in my study areas.  +

I'm a student major in geomorphology, and I'm interested in landscape evolution models and modeling, I want to learn more, so I want to join the group.  +

I'm an undergrad graduating in spring 2021, and I'm looking to study climate modelling, so... I'm interested in pretty much everything right now!  +

I'm currently working on assessing vulnerability of deltas.  +

I'm developing a simple model to simulate channel incision and widening processes throughout a channel network. I would like to contribute this model to CSDMS after the first version is completed.  +

I'm here for better opportunities and for learning  +

I'm interested in applying open-source solutions to mapping aquatic habitats.  +

I'm interested in connecting various hydrological models using CSDMS and our "virtual watershed".  +

I'm interested in extending / generalizing the plug-and-play approach for solid Earth sciences within the framework of EarthCube.  +

I'm interested in geomorphology modelling, specially in water-sediment interactions. I'm also specially interested in new techniques to include these two components in order to understand in a mechanistic way how they evolve in time.  +

I'm interested in integrated modeling frameworks, GIS, and water resources modeling.  +

I'm interested in surface drainage of Antarctic meltwater  +

I'm interested in the controls on planform morphology of deltas.  +

I'm interested in the modelling capabilities and data resources CSDMS has to offer for polar & coastal environments.  +

I'm interested in the spatial distribution of snow in the western US and how changes can affect water resources.  +

I'm part of the CSDMS Integration Facility  +

I'm primarily interested in the fundamental fluid physics that arise from certain geologic and atmospheric phenomena. I'm also interested in the simulation side.  +

I'm very interested in employing SEDFLUX for my further research in simulating the sedimentary system and generate insight.  +

I'm very interested in employing SEDFLUX to model the behaviors of gravity flows on different designs of topography in deepwater settings.  +

I'mi interested in Postdoc opportunities in hydrology, geomorphology, sediment transport and remote sensing  +

Ice sheets, sea level, isostasy, fluvial processes, GIS frameworks  +

Information on current research/work related to coastal modeling.  +

Integrated Modelling; Marine Data; HydroInformatics; Data and Modelling Standards  +

Integrated modeling including atmospheric, climate, and hydrology models; open source development  +

Integration of land use, land cover, transport and emission models  +

Inter-model comparison of USACE and open source tools and models  +

Interested in (1) modeling sediment transport and the resulting stratigraphy, mostly in deep marine settings; and (2) sinuous submarine and fluvial channels and their deposits.  +

Interested in Multihazard effect on the overall Risk Index of a Region  +

Interested in Stratigraphic Modeling and Inversion  +

Interested in coastal engineering research  +

Interested in coastal geomorphology/earth surface processes.  +

Interested in deltas and how models can help us learn more about the intricacies of how they work  +

Interested in geomorphology applications  +

Interested in hydrological modelling.  +

Interested in landscape evolution modelling and in fluvial geomorphology  +

Interested in linking deep earth processes and dynamics to the evolution of surface features over long time scales and the timelapse monitoring of aquifer recharge.  +

Interested in numerical modelling of deep-marine sedimentary systems.  +

Interested in remote sensing of river discharge  +

Interests are in coastal sediment transport, in particular with respect to nearshore wave breaking processes. I hope to couple a few of the long-term evolution models with in the coastal group.  +

Inundation modeling  +

Investigating the sensitivity of sandbody connectivity to accommodation and sediment supply in distributive fluvial systems through process-based forward models  +

Involved in developing Windsurf - model coupling XBEACH, Aeolis, and the Coastal Dune Model.  +

It is good place to distribute codes and get on materials.  +

Its my starting, let me spend time so i can understand CSDMS  +

Karst, Hydogeology, Remote Sensing  +

Knickpoint  +

LTRANS  +

Land surface hydrology and temperature  +

Land surface modeling and satellite-based data assimilation  +

Land surface modeling focusing on snow-vegetation interactions.  +

Land surface modelling (CHILD), coupling with atmospheric models (WRF)  +

Land surface modelling and geomorpological analysis  +

Land surface, Hydrology and coastal system modelling  +

Land-Atmosphere feedbacks and modelling thereof.  +

Landform Modelling  +

Landlab and Teaching Notebooks  +

Landlab component dev  +

Landscape Evolution & Morphodynamic Model Coupling  +

Landscape Evolution Modelling  +

Landscape Evolution and Modelling  +

Landscape and Climate modeling  +

Landscape and coastal modeling  +

Landscape evolution  +

Landscape evolution  +

Landscape evolution Orogenic system  +

Landscape evolution and the transient response of sediment routings.  +

Landscape evolution dynamics from the river-reach to planetary scale  +

Landscape evolution modeling Debris flow modeling Bed load transport modeling  +

Landscape evolution modeling for planetary surfaces  +

Landscape evolution modeling, tectonics and geomorphology, crustal deformation and landscape response  +

Landscape evolution modelling  +

Landscape evolution models and geomorphology  +

Landscape evolution models, geomorphometry, landslides  +

Landscape evolution, sediment transport, heat flow, thermochronology, geochronology  +

Landscape evolution.  +

Landscape modelling, Fluvial sediment transport and morphodynamics research  +

Landslide Runout Model  +

Landslide, earth surface process and active tectonics  +

Learn new models for evaluation and incorporation into my own.  +

Learning landscape evolution modelling skills, initially using pyBadlands. Using it to apply to coastal areas and areas of active tectonics in New Zealand  +

Linked geodynamic and stratigraphic modeling  +

Local user support for John Stamm, Parker Norton, and Gary Clow on the application of the Weather Research and Forecast Model to climate-change studies for the USGS.  +

Long term coastal change  +

Looking for computing facilities to carry out my climate modeling research.  +

MODFLOW  +

Machine Learning Application  +

Macro scale sediment modelling  +

Mainly interested on Debris Flow Lanslides. My PhD project is: "DEVELOPMENT OF A DETERMINISTIC / STOCHASTIC INTEGRATED APPROACH FOR THE DEFINITION OF DEBRIS FLOW SUSCEPTIBILITY MODEL. APPLICATIONS IN THE GIAMPILIERI (ME) AREA". For this reason right now I'm studying the literature related on the physical based modeling, which led me to CSDMS.  +

Marine Geology and Limnogeology  +

Marine and computational  +

Marine sediment transport and ocean palaeo-circulation  +

Mesoscale climate modeling  +

Metamodelling, reduced complexity modelling, improving ways to enable sediment records and field data to be compared rigorously with model outputs, with uncertainty across high-D factor spaces  +

Methane release from permafrost  +

Minor Thesis students  +

Model  +

Model Repositery  +

Model connections and visualization.  +

Model development for use with forecast systems, river - estuary links, land inundation  +

Model for landform evolution.  +

Model for sedimentray fill or related basin simulation  +

Model interoperability and BMI  +

Model sharing and integration  +

Model sharing and integration  +

Modeling of ocean wave  +

Modeling System  +

Modeling and geospatial data use  +

Modeling climate change effects on rivers & fish  +

Modeling continental shelf using Sedflux model  +

Modeling fluvial incision, algorithms that work with GIS data and DEMs  +

Modeling for sediment mass balance.  +

Modeling has become a very unique and useful tool now -a-days to determine and predict a lot of things related to Natural resources, Meteorology etc.  +

Modeling headwater sediment production and transport  +

Modeling in catchment hydrology, soil and landscape evolution.  +

Modeling lacustrine systems in order to analyze the sedimentary/geochemical response to climate and land use changes  +

Modeling nearshore wave-driven processes and morphological change, hazard analysis and modeling of tsunamis  +

Modeling of Coastal Dynamics  +

Modeling of Coastal Eco-geomorphological Change  +

Modeling of hydrodynamics and sediment transport processes on salt marshes and tidal flats at the Delmarva Peninsula  +

Modeling of sediment load of the Congo River with HydroTrend.  +

Modeling of sediment transport and flow dynamics  +

Modeling runoff in a burned watershed.  +

Modeling sediment dynamics on the basin scale  +

Modeling sediment transfer (related to PhD Modeling sediment transfer in the Illgraben).Use of hillslope and channel topographic analysis tools (for Postdoc on topographic response to uplift in northern California)  +

Modeling, Mars, Surface Processes, Fluvial, Lacustrine, Sediment, Geomorphology, morphometrics, morphology,  +

Modeling, Remote Sensing, Hydrology  +

Modelling  +

Modelling Coastal Processes  +

Modelling coastal dynamics  +

Modelling of human-environment interactions  +

Modelling of riverine water discharge and suspended sediment dynamics at a global scale and prediction of future riverine fluxes with the changing climate.  +

Modelling sediment flux to deltas using WBMsed and HydroTrend to help evaluate the sustainability of delta environments under environmental changes  +

Modelling subsurface stratigraphy  +

Modelling surface deformation of permafrost area  +

Modelling surface flows  +

Modelling systems  +

Modelling the depositional processes  +

Models about landslides hazard analysis  +

Morphodynamic of rivers  +

Morphodynamics  +

Mostly through the educational aspect - webinars and ongoing information/research. I want to see change in this planet before my children are fully adult. I want to see positive change and get involved as much as I can.  +

My Ph.D. research will be devoted to studying human interaction with coastal processes and general surface processes. Modeling the feedbacks between human decisions and coastal stability, and making these results/tools public for general use is a primary goal of mine.  +

My Phd project is on modelling the interaction between surface processes and tectonics  +

My area of research is urban hydrology and hydrodynamics which is completely available in csdms. Thank you  +

My broad research interests include observations and modeling of coastal hydrodynamics, morphology, and water quality. My dissertation research is an interdisciplinary topic on the observations and modeling of microbial water quality and human health implications at recreational beaches. This research effort is jointly funded by the National Institute of Environmental Health Sciences (NIEHS) and National Science Foundation (NSF), partly affiliated with Oceans and Human Health Center (OHH) at the University of Miami.  +

My current geomorphology research focuses on incision processes in soluble bedrock channels and the evolution of karst landscapes. I also study hydrogeology with a focus on karst and glacial systems.  +

My focus evolves around the process of sharing knowledge and modeling ecological uncertainty. these models are applied to solve for human-wildlife conflict. They account for a wide spectrum of variables such as ecosystem requirements, species needs, competing human objectives, and economic constraints. I work in terrestrial and coastal ecosystems.  +

My interests in CSDMS relate to measurement and modeling of fluvial and estuarine systems for the purpose of management decision support tool development.  +

My interests lie in connecting dynamics of earth surface processes with the stratigraphy. With CSDMS, I would like to work on building numerical models that translate floodplain dynamics to stratigraphy. Ultimately, these models will be compared with stratigraphic data and stratigraphic experiments.  +