Property:Description of your CSDMS-related interests member
From CSDMS
This is a property of type Text.
K
R
My main interests are related to river network modeling and topology, fluvial profiles, landscape evolution models, and divide migration. +
L
N
My main objective to join CSDMS to enhance interdisciplinary skills in in the field of Hydrology and related to it. +
L
My main research interests revolve around the fluvial transport of sediments on the Earth's surface, from the mechanisms of transport to the sedimentary record of the Earth history. +
M
My research focus area is sediment and flood modeling. Also, GIS and Remote sensing based water management is my another area of interest. +
S
My research focuses on the understanding of fluvio-deltaic systems and the controls and mechanisms governing their formation, morphology and long-term preservation into the rock record. I combine numerical modeling and field observation to understand these systems. +
A
My research interest lies in different hillslope and fluvial processes, source to sink sediment transfer processes, and numerical modelling of the landscape evolution. +
M
My research interests are in climatological variability of wind-waves, and their interaction and combined influence with other oceanographic drivers of marine and coastal evolution. +
J
My research interests are in the geomorphic processes shaping the earth’s surface particularly coastal and fluvial landscapes using remote sensing, geographic information system and landscape evolution models to simulate the geomorphic processes and resultant landforms. Coastal erosion, pollution and management, adaption and mitigation strategies of coastal communities to climate change have been my focus on coastal geomorphology. Current research in fluvial geomorphology has been on river sedimentation and channel erosion, watershed response to climate change, water quality analysis, land use and land cover change of catchments and fluvial landscapes evolution. +
A
My research interests focus on coastal and ocean engineering, including a particular interest in the dynamics of coupled watershed-coast systems.
In detail, they comprise:
○ Wave dynamics & 3D-hydrodynamics in marine and coastal areas
○ Sediment transport & coastal morphodynamics
○ Integrated watershed and coastal zone management
○ Climate change impact in watershed-coast systems
○ Coastal erosion & flooding
○ Estuarine dynamics
○ Design of harbour, coastal & marine structures
○ Adaptation to climate change in harbours & coastal areas
○ Tsunami dynamics
○ Oil spill dynamics
○ Numerical modelling +
H
My research interests include debris flows, bedload transport, and data management and data models. +
L
My research is based on studying the propagation of water waves over a certain solid big DIMENSIONS. However should be taken into account relevant factors such as wave refraction, direction and wind strength. Later, Will be also investigated in corentes generated sea as well as the deposition (or not) of sediment.
This kind of initial study will serve to analyze the feasibility of a system that execute slow down in part the high pace of coastal erosion, thus taking advantage of to improve the stability of cliffs, strengthen tourist areas and very important to increase the existing dune range. (Well, it turns out that by intrevenção of man and nature that is being considerably reduced.) +
W
My research is focused in dynamics of coastal process. Numerical modeling will be used to understand the dynamics in equatorial coast of Ecuador +
My work is in the field of Ecosystem Modelling. I work on developing methodology to understand ecosystems and apply this to Estuarine Ecosystems. +
R
My works examines the role of climatic and tectonic controls on erosion rates and associated sediment fluxes. During my phD works I have focused my studies on the eastern edge of the Ganga basin and Himalayan mountains. The study focuses in particular on the Tista River, from its mountainous catchment (in Sikkim) to the alluvial accumulations deposited at the mountain front, the Tista megafan. +
B
NCED Summer Institute and wherever that may lead! +
T
D
H
P
Networking with peers and seeking post-doctoral positions +
N
A
Numerical Modeling, Compound Flooding, Morphodynamics, Storm Surge, Coastal Engineering, Salt wedge intrusion +
P
Numerical Modelling on Coastal and Marine sedimentological processes +
J
Numerical and physical modeling of fluvial systems over long time scales +
A
Numerical modeling of coastal evolution over a range of time scales, from a tidal-cycle to multiple sea level cycles (myr). +
R
D
S
Numerical simulation of landscape evolution, hydrological cycle, soil erosion +
H
D
X
H
G
Ocean-Atmosphere-Hydrological regional modeling for the Mediterranean Region. I am currently participating in Horizon-EU funded projects that focus on climate-change-induced risks. More details at: https://orcid.org/0000-0003-2619-2664 +
R
P
M
F
A
B
Participation in NCSD summer institute at Tulane University, 2015 +
W
J
Permafrost +
I
B
V
PhD visiting student working on modelling of sequence geometry in the central Adriatic Sea +
J
G
Physically based distributed hydrologic modeling and GIS. Enhancing understanding of physical process and prediction under interdisciplinary model development and application. +
A
F
S
Postdoctoral Research and jobs informations +
P
E
R
A
Reactive transport onto hydrological models. +
J
Reconstring palaeo-environmental histories using coupled landscape evolution and stratigraphic models. +
N
W
D
Regional climate modeling using WRF with modified land cover to examine changes in surface fluxes which ultimately will influence the development and evolution of weather systems, particularly on the mesoscale. +
S
J
P
E
Research +
I
Research +
R
S
Research +
V
Research +
C
P
O
Research on climate change and eukaryotic microbial communities in estuaries and terrestrial environments +
S
C
A
Responsibility for 4D models in BGS +
Y
Reusing, sharing and integrating heterogeneous geo-analysis models in open web environment. +
U
V
A
G
V
D
C
D
River routing of terrestrial biospheric model estimated runoff within major river basins of North America +
M
River sediment transport modelling; Strategic river system management +
A
S
R
N
R
C
A
SBEACH +
L
SEDFLUX modelling +
M
C
L
H
A
B
K
S
Sediment discharge modeling, especially WBMsed. My plan is to modify the BQART model to incorporate spatially and temporally explicit human erosive parameters. +
L
M
Sediment from source to sink. Process-based modeling of estuarine sediment dynamics. Decadal morphodynamic developments +
T
Sediment production and transport from source to sink. Dispersion of sediment on the continental shelf. Influence of glaciations and eustasy on sediment routing to the continental shelf. +
Z
P
W
E
P
J
B
I
K
Sediment-transport and Flooding +
G
Sediment/Nutrient Modeling using coupled sediment transport model. Research interests includes Western Pacific and the South Atlantic Bight and Gulf of Mexico waters. +
D
Sedimentary Systems Modeling +
H
Sedimentology and Stratigraphy of Siliciclastics. +
Sediments +
K
A
S
G
Share all the developments, software and source codes of the hydrological models used in GH2MF2 such as TOPKAPI-eXtended and predictive uncertainty processors (MCP), share hydrometeorological datasets for calibration / validation, share the open source platform WEB-GIS developments, share knowledge and ideas and finally be integrated into the CSDMS community +
L
C
J
G
J
Simulation model development and application +
E
Simulation of Kudenda stream Kaduna for Pollution using QUAL2K Model. +
F
Simulation of the Saline Penetration on Lake Maracaibo, the largest lake in South America. +
K
Since 2007, I have been involved in a parallel semantic modeling project called ARIES (http://aries.integratedmodelling.org/). I'm interested in linking scientific data and models on the cloud to improve their reusability, particularly to address complex coupled human-natural systems questions. +
J
S
Snow hydrological modeling +
B
So far I have taken an empirical (field-based) approach to geomorphology. This approach has clear spatial and temporal limitations. I'd hope to see field data (perhaps coming from different regions) contributing to the development/fine tuning of landscape evolution/sediment flux models to examine how site-specific data will scale up at regional spatial scales and possibly at longer (> 100 yrs)time scales. +
C
Social-ecological systems modelling +
S
T
A
M
Spatially-explicit models of population and community dynamics, and the emergent properties of spatially-structured systems. +
F
H
G
L
Stream ecology in general and aquatic ecosystem modeling +
M
D
O
A
V
Surface process modeling and flexural isostasy +
P
C
Surface processing modeling +
N
Surface topography driven by the lithosphere deformation. Mountain building. Topography from both lithosphere deformation and mantle dynamics. +
A
H
Sustainable Economic Resource Development +
S
C
R
Systems dynamics modeling, coastal erosion & climate change effects, natural disaster risk management +
J
R
M
N
Tectonic Geomorphology and Planetary Science +
S
M
A
Terrestrial
Currently managing the Dynamic Environment Sensitivity to Climate Change (DESC) project, which seeks to create a modelling platform where the influence of predicted future climate scenarios can be tested on a variety of landscape evolutionary processes at a range of spatio-temporal scales. The current DESC modelling platform is based on the Cellular Automaton Evolutionary Slope And River (CAESAR) model, which can simulate morphological changes in river catchments or reaches, on a flood by flood basis over periods of an hour up to several thousands of years. Through the coupling of the quasi three dimensional groundwater model ZOOMQ3D to CAESAR it was shown that although the cumulative sediment output at the base of a catchment is similar to a non-groundwater simulation, the spatio-temporal distribution of erosion and deposition throughout the modelled area was modified, being influenced through the interplay of rainfall events and groundwater maxima and minima. The coupled model is however, computationally expensive and labour intensive; therefore the groundwater model is currently being replaced by simple subsurface flow algorithms. To further improve hydrological representation and increase the number of novel applications, modification of the surface routing algorithms and inclusion of soil characteristics, evapotranspiration and land use are being undertaken, with dynamic vegetation and improvements to landslide development being added in the near future. When complete, the model will be used to simulate the effects of different climate scenarios on a variety of environments.
Coastal
In the UK, much of the coastal observation, modelling and risk-mitigation work to date has focussed on relatively local domains. CARE, the dynamic coastal evolution project, aims to generate an OpenMI-compliant modelling system that integrates geology, geomorphology and climate, and is focussed on longer time and larger length scales in order to understand better the geomorphological effects of steadily evolving climate regimes. Although this project is in its initial stages, a loose model framework has been created which provides a flexible quasi three-dimensional environment where coastal sediment transport algorithms can be evaluated for a particular study area. Although the framework uses a simple PDF to drive wave climates, in the future running simulations with observed or perturbed wave climate data will open up a number of possible paths including: hind-casting, storm influences, and possible future coastal scenarios.
M
Terrestrial and coastal landscape evolution modelling, quantitative analysis of topographic data. +
K
P
The modelling of prehistoric sea level fluctuation in relation to human dispersal patterns and early settlement sites. +
A
The science +
S
The various emerging issues in geomorphology and present world has been addressed by CSDMS that is my initial interest. Being the researcher in geomorphology I also like to share and gain knowledge through CSDMS. +
R
Theory-informed AI prediction of near-future ecological phenomena +
Z
This website is very useful website to share and get data and information. Also, it offers a variety of codes that could help us to your researchs +
H
A
J
To resolve the processes building the present geomorphology of key area of China during the Cenozoic. +
H
To seek PhD opportunities +
J
To share my codes and follow up developments abroad in the field of web based hydrologic modeling. +
P
D
To utilize the CSDMS for the education and research of the graduate students +
H
S
M
Topographic derivatives to estimate erosion and rate of landscape change in tectonically quiescent settings. +
L
K
C
A
J
Turbidite systems in Convergent MarginsSedimentation in convergent marginsModelling allogeneic and autogenic process in convergent margins +
Z
C
Turbidity currents +
M
J
G
A
Urban Flood Modelling
Estuary Hydrodynamics
Storm Surge Modelling +
H
Use ROMS to model the 3D dissolved oxygen in Chesapeake Bay +
D
Use of individual-based and spatially explicit modeling to understand and predict ecosystem and landscape change. +
S
Use of models to support landscape restoration and planning for climate change adaptation; NCEAS working group on wetland carbon sequestration modeling +
L
User (and developer) of Delft3D. Interested in coastal and river morphology, and long term processes. Interested in education and knowledge transfer. Graduated at SAFL, UMN, therefore interested in maintaining network and contacts as well. +
J
H
R
S
Using landlab and associated components to model the interrelatedness of natural hazards in various global settings +
P
Using models to further understand aspects of Earth History +
F
Y
VIC-3L model used in many hydrological modeling +
D
A
W
N
Wash123D +
M
L
A
G
We are interested in building a model to reproduce moraines under tidewater glaciers using components of existing models from CSDMS +
K
We are working with WRF-C climate data from John Stamm and Gary Clough to study climate impacts on future vegetation using the MAPSS and MC1 models. +
S
What are the dynamics of subsiding river deltas under various human and natural influences? +
B
C
L
F
Working on coupling Delft3D, XBeach and some other models. +
R
L
G
T
A
V
C
T
M
bedrock river migration modeling +
G
biogeochemistry, environmental geochemistry, landscape evolution, geoengineering, cycling of metals in river systems +
D
climate change, sea ice depletion, freshwater flux to Arctic Ocean, groundwater and surface water trends (liquid and frozen states) +
C
J
E
coastal geomorphology, sediment transport +
J
A
coastal modeling research +
R
coastal modeling, AI/ML in coastal models +
S
J
G
coastal sediment transport and morphology modeling +
M
coastal sediment transport; reef environments; numerical modeling of coastal processes; remote sensing of nearshore processes +
K
coastal vulnerability and climate change +
I
M
L
coupled physical-biogeochemical ocean modeling +
T
S
D
C
N
G
develop end-user skills for model use and application on delta research and incorporating in classroom teaching +
T
B
U
development of environmental and Ecological modelling tools , especially for Developing Nations. +
F
P
devote in mountain hazards +
B
A
doctoral research on waves and interanul variation in wave climate and effects on nearshore region of indian peninsula. +
S
doing research using WBMsed model for calibration of satellite based river discharge measurement using WBMsed +
F
M
J
C
ecogeomorphology; ecohydraulics +
P
G
B
D
H
L
B
T
V
T
J
fluvial geomorphology, sediment transport, hydrology, coastal change, remote sensing +
M
Y
fluvial sedimentology and stratigraphy +
D
geodynamics, tectonics, rifting, geodesy +
C
J
geomorphology +
S
P
S
J
glacial and landscape evolution modeling +
N
S
graduate and professional opportunity in hydrology +
E
R
http://detwiler.eng.uci.edu +
J
M
U
M
P
X
hydrology +
M
T
S
iam interested in GENESIS software +
A
integrated watershed and coastal zone management; sediment transport and coastal morphodynamics; climate change impact; numerical modeling +
V
interaction between tectonic and surface processes (specifically within active fault zones) +
E
F
interaction tectonics - surface processes - climate +
Y
interactions between active deformation and surface processes, and their implications in natural hazard mitigation +
L
K
interested in developing regional access to multiple models for individual or ensemble predictions +
A
W
G
landform evolution modeling +
landform evolution, soil pedogenesis +
W
Z
B
landscape dynamics across the scales (from grain to basin and watershed scales), physics of sediment transport, erosion and deposition in different sedimentary environment and geological and tectonic settings. +
X
landscape evolution and stratigraphic modeling; interplay between surface and deep Earth processes +
S
D
L
N
J
V
landscape modeling, coding, python, suface processes, river network evolution +
L
J
I
T
machine learning in automatically mapping landslides +
A
D
C
A
L
model coupling +
J
model swat +
K
R
M
S
modeling problems in marine systems +
M
E
H
P
W
M
my interests are mainly focused on how to design the habitat conservation area, to maximize the landscape connectivity in a climate change context. +
C
natural hazards, climate change, data driven, machine learning +
A
R
numerical modeling in surface processes especially deltas, wetlands, and dunes +
A
D
ocean alkalinity enhancement +
F
ocean dynamics and sediment transfer modelisation +
T
K
L
participant in 2015 NCED Summer Institute / SIESD +
U
W
K
E
C
W
I
rainfall runoff modelling to simulate runoff for algerian basins +
L
S
remote sensing, HPC, software workflows +
J
review potential of CarboCAT for carbonate reservoir characterization purposes +
S
riparian and riverine ecosystem processes +
K
Z
C
J
G
N
rivertools, topoflow, erode +
K
M
K
A
I
W
L
sediment routing system +
P
L
sediment transport +
M
K
A
L
S
J
shoreline/delta hydrodynamic/morphodynamic modelling, remote sensing/data analysis +
G
B
social-ecological modelling of land use systems
integration of human decision in models
coupled social-ecological dynamics in mountain systems, in drylands +
Z
M
N
T
stratigraphic - geomorpholgic evolution +
B
S
M
B
M
R
surface processes through geological time +
E
S
L
terrain +
T
terrain analysis +
D
V
K
P
G
to take part in the work of Ecosystem Dynamics Focus Research Group and in populating model repository with the models of ecosystem gross primary production and net primary production +
H
S
topography +
M
tsunami modeling and software development +
D
tsunami wave dynamics in natural resonators, in rivers, in interaction with tides;
signal processing applications;
computer code development for tsunami simulations;
validation / analysis of the numerical techniques. +
L
J
B
valdivia archaeology, UAS modeling, GIS and remote sensing, floodplain mapping, geoarchaeology +
M
various +
J
C
A
watershed hydrology and geomorphology, climate impacts, effectiveness of mitigation efforts +
X
wave current interaction +
C
webinars to increase topic knowledge +
G
wetland methane modeling at multiple scales +
C
windblown bedforms and sediment transport +
O
working with data from marine sed cores in polar regions +
U