From csdms
Terrestrial model descriptions
This is an automatically generated table.
Want to add your model to this list? Please complete this questionnaire first. Feel free to contact us CSDMSweb@colorado.edu or use the wiki and follow one of the model links if you want to update the information about a model that is already listed.
Ready to submit model source code to the CSDMS repository? Zip or tar the source code and mail it to: CSDMSsupport@colorado.edu, or let us know when the files are to large, we can open a ftp site for you so you can upload your model.
| Table legend | |
|---|---|
| Source code not yet available |
| Source code available through owner |
| Source code available through CSDMS repository |
| Source code has a IRF interface |
| Source code does NOT have a IRF interface but it is possible to create a IRF interface |
There are 76 terrestrial model descriptions available in the table below:
| Program | Description | Developer | Status |
|---|---|---|---|
| ADI-2D | Advection Diffusion Implicit (ADI) method for solving 2D diffusion equation | Pelletier, Jon | |
| Alpine3D | 3D model of alpine surface processes | Bavay, Mathias | |
| AquaTellUs | Fluvial-dominated delta sedimentation model | Overeem, Irina | |
| Avulsion | Stream avulsion model | Hutton, Eric | |
| BEDLOAD | Bedload transport model | Slingerland, Rudy | |
| Bedrock Erosion Model | Knickpoint propagation in the 2D sediment-flux-driven bedrock erosion model | Pelletier, Jon | |
| CAM-CARMA | A GCM for Titan that incorporates aerosols | Larson, Eric | |
| CASCADE | Large scale SPM based on irregular spatial discretization | Braun, Jean | |
| CHILD | Landscape Evolution Model | Tucker, Greg | |
| Caesar | Cellular landscape evolution model | Coulthard, Tom |  |
| CellularFanDelta | Coarse-grained delta dynamics and stratigraphy | Wolinsky, Matthew | |
| ChannelOscillation | Simulates Oscillations in arid alluvial channels | Pelletier, Jon | |
| CosmoLand | 2-D model tracking cosmogenic nuclides and mixing in landslide terrain | Yanites, Brian | |
| Coupled1D | Coupled 1D bedrock-alluvial channel evolution | Pelletier, Jon | |
| DECAL | Aeolian dune landscape model | Baas, Andreas | |
| DR3M | Distributed Routing Rainfall-Runoff Model--version II | U.S., Geological Survey | |
| Delft3D | 3D hydrodynamic and sediment transport model | Delft3D, Support | |
| Dionisos | 3D basin-scale stratigraphic model | Granjeon, Didier | |
| ENTRAIN | Simulates critical shear stress of median grain sizes | Slingerland, Rudy | |
| ENTRAINH | Simulates critical shields theta for median grain sizes | Slingerland, Rudy | |
| Eolian Dune Model | Werner's model for eolian dune formation and evolution | Pelletier, Jon | |
| Erode | Fluvial landscape evolution model | Peckham, Scott | |
| FLDTA | Simulates flow characteristics based on gradually varied flow equation | Slingerland, Rudy | |
| FTCS1D-NonLinear | Forward Time Centered Space (FTCS) method for 1D nonlinear diffusion equation | Pelletier, Jon | |
| FTCS2D | Forward Time Centered Space (FTCS) method for 2D diffusion equation | Pelletier, Jon | |
| FTCS2D-TerraceDiffusion | Forward Time Centered Space (FTCS) method for 2D Terrace diffusion | Pelletier, Jon | |
| FillinPitsFlatsDEM | Filling in pits and flats in a DEM | Pelletier, Jon | |
| Flex1D | Fourier filtering in 1D while solving the flexure equation | Pelletier, Jon | |
| Flex2D | Fourier filtering in 2D while solving the flexure equation | Pelletier, Jon | |
| Flex2D-ADI | Solving the flexure equation applying Advection Diffusion Implicit (ADI) method | Pelletier, Jon | |
| Fourier-Bessel integration | Numerical integration of Fourier-Bessel terms | Pelletier, Jon | |
| FractionalNoises1D | 1D fractional-noise generation with Fourier-filtering method | Pelletier, Jon | |
| FractionalNoises2D | 2D Gaussian fractional-noise generation with Fourier-filtering method | Pelletier, Jon | |
| GEOtop | Distributed hydrological model, water and energy budgets | Rigon, Riccardo | |
| GNE | Set of biogeochemical sub-models that predicts river export | Seitzinger, Sybil | |
| GOLEM | Landscape evolution model | Tucker, Greg | |
| GPM | Sedimentary process modeling software | Tetzlaff, Daniel | |
| GSSHA | Coupled distributed engineering hydrology, sediment, contaminant fate/transport | Ogden, Fred | |
| Gc2d | Glacier / ice sheet evolution model | Kessler, Mark | |
| HEBEM | Hydrologically Enhanced Basin Evolution Model | Niemann, Jeffrey | |
| HydroTrend | Climate driven hydrological transport model | Kettner, Albert | |
| Ice-sheet / Glacier reconstruction | Sandpile method for ice-sheet and glacier reconstruction | Pelletier, Jon | |
| Iceages | Stochastic-resonance subroutine of Pleistocene ice ages | Pelletier, Jon | |
| LITHFLEX1 | Lithospheric flexure solution | Furlong, Kevin | |
| LITHFLEX2 | Lithospheric flexure solution for a broken plate | Furlong, Kevin | |
| LOADEST | Software for estimating constituent loads in streams and rivers | Runkel, Rob | |
| LOGDIST | Logrithmic velocity distribution solution | Slingerland, Rudy | |
| LONGPRO | Dynamic evolution of longitudinal profiles | Slingerland, Rudy | |
| Lake-Permafrost with Subsidence | 1-D lake-permafrost thermal model with subsidence. | Matell, Nora | |
| LavaFlow2D | 2D radially symmetric lava flow model | Pelletier, Jon | |
| MARSSIM | Landform evolution model | Howard, Alan | |
| MFDrouting | Multiple Flow Direction (MFD) flow routing method | Pelletier, Jon | |
| MFDrouting-Successive | Successive flow routing with Multiple Flow Direction (MFD) method | Pelletier, Jon | |
| MIDAS | Coupled flow- heterogeneous sediment routing model | Slingerland, Rudy | |
| ParFlow | Parallel, high-performance, integrated watershed model | Maxwell, Reed | |
| Pllcart3d | 3D numerical simulation of confined miscible flows | Oliveira, Rafael | |
| SETTLE | Partical settling velocity solution | Slingerland, Rudy | |
| SOBEK | 1D hydraulic numerical model | SOBEK, Support | |
| SUSP | Suspended load transport subroutine | Slingerland, Rudy | |
| SVELA | Shear velocity solution associated with grain roughness | Slingerland, Rudy | |
| SimClast | basin-scale 3D stratigraphic model | Dalman, Rory | |
| Spirals1D | 1D model of spiral troughs on Mars | Pelletier, Jon | |
| StreamPower | Modeling the development of topographic steady state in the stream-power model | Pelletier, Jon | |
| Subside | Flexure model | Hutton, Eric | |
| TUGS | Fluvial gravel and sand transport model | Cui, Yantao | |
| TURB | Gausian distribution calculator of instantaneous shear stresses on the fluvial bed | Slingerland, Rudy | |
| TopoFlow | Hydrological model | Peckham, Scott | ] |
| TreeThrow | Sediment transport by tree throw on hillslopes | Kirwan, Matthew | |
| WACCM-CARMA | atmospheric/aerosol microphysical model | English, Jason | |
| WACCM-EE | GCM for deep paleoclimate studies | Wolf, Eric | |
| WASH123D | Watershed Model, River Hydraulics, Overland Flow, Subsurface Flow, Sediment Transport, Water Quality Transport | Yeh, Gour-Tsyh (George) | |
| WBM/WTM | Water Balance/Transport Model | Fekete, Balazs | |
| WEPP | Process-based soil erosion by water at field/farm scale | Flanagan, Dennis | |
| WILSIM | Landscape evolution model | Luo, Wei | |
| YANG's routine | Fluvial sediment transport model | Slingerland, Rudy | |
| Zscape | A simple parallel code to demonstrate diffusion | Connor, Chuck | |
Questionnaires still need to be filled out for the next models:
| Program | Description | Developer | Source code |
|---|---|---|---|
| DHSVM | Model: Distributed Hydrology Soil Vegetation Model | DHSVM Administrator |
|
| DRAINAL | Model: Surface process model | Beaumont, Chris |
|
| EPANET | model: Models the Hydraulic and Water Quality Behavior of Water Distribution Piping Systems | Rossman, Lewis | 
|
| GEOTOP | Model: A Distributed Hydrological Model with Coupled Water and Energy Budgets | Rigon, Riccardo |
|
| HSPF | Model: Hydrological Simulation Program - FORTRAN is a comprehensive package for simulation of watershed hydrology and water quality for both conventional and toxic organic pollutants | Center for Exposure Assessment Modeling (CEAM) |
|
| HydroCAD | Model: Computer Aided Design tool used for modeling stormwater runoff | HydroCAD Software Solutions LLC |
|
| Hydrus 2D/3D | Model: Water Flow and Solute Transport model in Two- and Three-Dimensional Variably Saturated Media | GroundwaterSoftware |
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| MIKE SHE | Model: Advanced integrated hydrological modeling system | DHI |
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| MODFLOW | Model: A three-dimensional finite-difference groundwater flow model | McDonald, Michael |
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| QUAL2K | Model: A Modeling Framework for Simulating River and Stream Water Quality | Chapra, Steve |
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| RASCAL | Model: Ridge and Slough Cellular Automata Landscape | Larsen, Laurel |
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| RHESSyS | Model: Regional Hydro-Ecologic Simulation System | Tague, Christina |
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| RIVMOD | Model: One-dimensional hydrodynamic model | Carroll, Rosemary |
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| SAC-SMA | Model: Sacramento Soil Moisture Accounting (SAC-SMA) model | Burnash, R. |
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| SetNet | Model: Sediment river Network model | Wilkinson, Scott |
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| SPARROW | Model: Modeling of Surface-Water Quality | Alexander, Richard |
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| SWAT | Model: SWAT is a river basin scale model developed to quantify the impact of land management practices in large, complex watersheds. | SWAT Development Team |
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| SWMM | Model: Storm Water Management Model | Rossman, Lewis |
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| TOPMODEL | Model: Physically based, distributed watershed model that simulates hydrologic fluxes of water through a watershed | Beven, Keith |
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| TOPOG | Model: Terrain analysis-based hydrologic modelling package | Butt, Tony |
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| Tremp | Model: Eocene Tremp foreland basin model | Clevis, Quintijn |
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| WRF | Model: The Weather Research & Forecasting Model | Michalakes, John; Skamarock, Bill |
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