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From CSDMS
This page provides a simple browsing interface for finding entities described by a property and a named value. Other available search interfaces include the page property search, and the ask query builder.
List of results
- Model:MarshPondModel + (2D marsh evolution model focused on pond dynamics)
- Model:LEMming2 + (2D model that simulates the retreat of hard-capped cliffs)
- Model:IceFlow + (2D semi-implicit shallow ice approximation glacier model)
- Model:Sakura + (3 Equation hyperpycnal flow model)
- Model:DROG3D + (3-DIMENSIONAL DROGUE TRACKING ALGORITHM FOR A FINITE ELEMENT GRID WITH LINEAR FINITE ELEMENTS)
- Model:Gvg3Dp + (3D Numerical Simulation of Turbidity Currents)
- Model:Dionisos + (3D basin-scale stratigraphic model)
- Model:HAMSOM + (3D free surface and baroclinic hydrodynamic model)
- Model:Delft3D + (3D hydrodynamic and sediment transport model)
- Model:Alpine3D + (3D model of alpine surface processes)
- Model:Pllcart3d + (3D numerical simulation of confined miscible flows)
- Model:Symphonie + (3D primitive equation ocean model)
- Model:Cyclopath + (A 2D/3D model of carbonate cyclicity)
- Model:Wetland3P + (A 3-point dynamic model for the morphological evolution of a backbarrier basin composed by marshes and mudflats)
- Model:GeoTiff Data Component + (A CSDMS data component for accessing data and metadata from a GeoTIFF file, through either a local filepath or a remote URL..)
- Model:GridMET Data Component + (A CSDMS data component for fetching and caching gridMET meteorological data.)
- Model:ROMS Data Component + (A CSDMS data component used to access the Regional Ocean Modeling System (ROMS) datasets)
- Model:SoilGrids Data Component + (A CSDMS data component used to download the soil property datasets from the SoilGrids system.)
- Model:ERA5 Data Component + (A CSDMS data component used to download the ECMWF Reanalysis v5 (ERA5) datasets)
- Model:DbSEABED Data Component + (A CSDMS data component used to download the marine substrates datasets from the dbSEABED system.)
- Model:NWIS Data Component + (A CSDMS data component used to download the National Water Information System (Nwis) time series datasets.)
- Model:NWM Data Component + (A CSDMS data component used to download the National Water Model datasets.)
- Model:WAVEWATCH III Data Component + (A CSDMS data component used to fetch and cache WAVEWATCH III datasets.)
- Model:Topography Data Component + (A CSDMS data component used to fetch and cache NASA Shuttle Radar Topography Mission (SRTM) and JAXA Advanced Land Observing Satellite (ALOS) land elevation data using the OpenTopography REST API.)
- Model:CAM-CARMA + (A GCM for Titan that incorporates aerosols)
- Model:QUAL2K + (A Modeling Framework for Simulating River and Stream Water Quality)
- Model:Dakotathon + (A Python API for the Dakota iterative systems analysis toolkit.)
- Model:PyRiverBed + (A Python framework to generate synthetic riverbed topography of constant-width meandering rivers)
- Model:Terrainbento + (A Python package for multi-model analysis in long-term drainage basin evolution)
- Model:Dorado + (A Python package for simulating passive particle transport in shallow-water flows)
- Model:CoAStal Community-lAnDscape Evolution (CASCADE) model + (A coupled landscape and human-dynamics modeling framework for barrier evolution)
- Model:SWEHR + (A coupled model for infiltration, fluid flow, and sediment transport.)
- Model:ACADIA + (A finite element formulation of the non-conservative form of the vertically integrated advection/diffusion/reaction (ADR) equation)
- Model:TwoPhaseEulerSedFoam + (A four-way coupled two-phase Eulerian model for sediment transport)
- Model:HydroPy + (A global hydrological model useful for assessment of the land surface water balance.)
- Model:BatTri + (A graphical Matlab interface to the C language 2-D quality finite element grid generator Triangle.)
- Model:HexWatershed + (A mesh independent flow direction model for hydrologic models)
- Model:OrderID + (A method to test for order in a vertical succession of strata)
- Model:Rescal-snow + (A model of dunes and snow-waves)
- Model:KWAVE + (A model representing infiltration, interception, and runoff using the kinematic wave approximation)
- Model:SedFoam-2.0 + (A multi-dimensional Eulerian two-phase model for sediment transport (version 2.0))
- Model:OptimalCycleID + (A numerical method to analyse a vertical succession of strata and identify the most cyclical arrangement of constituent facies)
- Model:SedCas + (A probabilistic sediment cascade model for sediment production, storage and transfer)
- Model:LuSS + (A set of MATLAB functions to model how luminescence evolves in different geomorphic scenarios.)
- Model:TopoToolbox + (A set of Matlab functions for topographic analysis)
- Model:Meanderpy + (A simple kinematic model of meandering)
- Model:Zscape + (A simple parallel code to demonstrate diffusion)
- Model:ECSimpleSnow + (A simple snow model)
- Model:Barrier3D + (A spatially explicit model of coastal barrier evolution)
- Model:MCPM + (A stand alone model for the morphological evolution of an idealized transect across a marsh channel-and-platform.)
- Model:QUODDY + (A state-of-the-art finite-element computer simulation program for coastal ocean circulation modeling)
- Model:TauDEM + (A suite of Digital Elevation Model (DEM) tools for the extraction and analysis of hydrologic information from topography as represented by a DEM. TauDEM 5 is a new version implemented to take advantage of parallel processing)
- Model:FineSed3D + (A turbulence-resolving numerical model for fine sediment transport in bottom boundary layer)
- Model:NUBBLE + (A turbulent boundary layer model for the linearized shallow water equations)
- Model:ZoneTaxon + (A zone-based taxon)
- Model:Anuga + (ANUGA is a hydrodynamic modelling tool that allows users to model realistic flow problems in complex 2D geometries.)
- Model:AnugaSed + (Add-on package to ANUGA with modules for sediment transport and vegetation drag)
- Model:AeoLiS + (AeoLiS is a process-based model for simulating aeolian sediment transport in situations where supply-limiting factors are important, like in coastal environments.)
- Model:DECAL + (Aeolian dune landscape model)
- Model:CSt ASMITA + (Aggregate scale morphodynamic model of integrated coastal systems)
- Model:ALFRESCO + (Alaskan Frame‐based Ecosystem Code)
- Model:Hilltop flow routing + (Algorithm for directly measuring hillslope length from high resolution topographic data)
- Model:DrEICH algorithm + (Algorithm for extracting channel networks from high resolution topographic data)
- Model:Mixed bedrock-alluvial morphodynamic + (Alluvial morphodynamics of bedrock reaches)
- Model:SiStER + (An easy-to-use MATLAB code to simulate long-term lithosphere and mantle deformation.)
- Model:SedBerg + (An iceberg drift and melt model, developed to simulate sedimentation in high-latitude glaciated fjords.)
- Model:TURBINS + (An immersed boundary, Navier–Stokes code for the simulation of gravity and turbidity currents interacting with complex topographies.)
- Model:IDA + (An implementation of the Implicit Drainage Area method (regular and hybrid versions) for calculating drainage area from flow directions using parallel iterative solvers.)
- Model:River Erosion Model + (An intermediate complexity model for simulating stream channel evolution (years to decades) at the watershed scale.)
- Model:SNAC + (An updated Lagrangian explicit finite difference code for modeling a finitely deforming elasto-visco-plastic solid in 3D.)
- Model:SLEPIAN Delta + (Analysis of time-variable gravity from the GRACE satellite mission using spherical harmonics and spherical Slepian functions)
- Model:BITM + (Barrier Island Translation model)
- Model:BarrierBMFT + (Barrier-Bay-Marsh-Forest Transect Coupled Model Framework)
- Model:Badlands + (Basin and landscape dynamics)
- Model:Sedflux + (Basin filling stratigraphic model)
- Model:River Network Bed-Material Sediment + (Bed-material sediment transport and storage dynamics on river networks.)
- Model:BEDLOAD + (Bedload transport model)
- Model:BOM + (Bergen Ocean Model)
- Model:Bio + (Biogenic mixing of marine sediments)
- Model:BlockLab + (BlockLab computes landscape evolution in the presence of large blocks of rock on hillslopes and in channels.)
- Model:Terrapin + (Build and destroy strath and fill terraces)
- Model:CAESAR Lisflood + (Caesar Lisflood is a morphodynamic / Landscape evolution model that simulates erosion and deposition in river catchments and reaches over time scales from hours to 1000's of years.)
- Model:ChiFinder + (Calculate Chi Indices)
- Model:HackCalculator + (Calculate Hack parameters.)
- Model:FwDET + (Calculate floodwater depth based on an inundation polygon (e.g. from remote sensing) and a DEM)
- Model:SteepnessFinder + (Calculate steepness and concavity indices from gridded topography)
- Model:OceanWaves + (Calculate wave-generated bottom orbital velocities from surface wave parameters)
- Model:PotentialEvapotranspiration + (Calculates potential evapotranspiration)
- Model:Physprop + (Calculates the acoustic values based on physical properties)
- Model:CarboCAT + (Carbonate cellular automatacyclicity)
- Model:Auto marsh + (Cellula automata model for salt marsh evolution with variable soil resistance under wind waves attack)
- Model:GrainHill + (Cellular automaton model of hillslope evolution)
- Model:Caesar + (Cellular landscape evolution model)
- Model:UMCESroms + (Chesapeake Bay Application, special case of Regional Ocean Modeling System (ROMS))
- Model:ChesROMS + (Chesapeake Bay ROMS Community Model (ChesROMS), special case of ROMS)
- Model:HydroTrend + (Climate driven hydrological transport model)
- Model:CellularFanDelta + (Coarse-grained delta dynamics and stratigraphy)
- Model:ADCIRC + (Coastal Circulation and Storm Surge Model)
- Model:Barrier Inlet Environment (BRIE) Model + (Coastal barrier island transgression model)
- Model:Shoreline + (Coastal evolution model)
- Model:CEM + (Coastline evolution model)
- Model:Detrital Thermochron + (Code for estimating long-term exhumation histories and spatial patterns of short-term erosion from the detrital thermochronometric data.)
- Model:Drainage Density + (Component for calculating drainage density in Landlab given a channel network)
- Model:OverlandFlow + (Component simulating overland flow using a 2-D numerical approximation of the shallow-water equations following the de Almeida et al., 2012 algorithm for storage-cell inundation modeling.)
- Model:FlowAccumulator + (Component to accumulate flow and calculate drainage area.)
- Model:LossyFlowAccumulator + (Component to calculate drainage area and accumulate flow, while permitting dynamic loss or gain of flow downstream.)
- Model:SLEPIAN Alpha + (Computation of spherical harmonics, Slepian functions, and transforms)
- Model:SLEPIAN Echo + (Computation of vectorial spherical harmonics, vectorial Slepian functions, and transforms)
- Model:Radiation + (Compute 1D and 2D total incident shortwave radiation.)
- Model:StreamPowerSmoothThresholdEroder + (Compute fluvial erosion using stream power theory with a numerically smoothed threshold)
- Model:FastscapeEroder + (Compute fluvial erosion using stream power theory (“fastscape” algorithm))
- Model:SedDepEroder + (Compute fluvial erosion using using “tools and cover” theory)
- Model:SoilMoisture + (Compute the decay of soil moisture saturation at storm-interstorm time period)
- Model:BRaKE + (Computes evolution of a bedrock river longitudinal profile in the presence of large, hillslope-derived blocks.)
- Model:ZoneController + (Controls zones and populates them with taxa.)
- Model:CBIRM + (Coupled Barrier Island-Resort Model)
- Model:GSSHA + (Coupled distributed engineering hydrology, sediment, contaminant fate/transport)
- Model:MIDAS + (Coupled flow- heterogeneous sediment routing model)
- Model:CMFT + (Coupled salt Marsh - tidal Flat Transect model)
- Model:FractureGridGenerator + (Create a 2D grid with randomly generated fractures.)
- Model:Lithology + (Create a Lithology object with different properties)
- Model:Cross Shore Sediment Flux + (Cross-Shore Sediment Flux Equations)
- Model:CryoGrid3 + (CryoGrid 3 is a simple land-surface scheme dedicated to modeling of ground temperatures in permafrost environments.)
- Model:DHSVM + (DHSVM is a distributed hydrologic model that explicitly represents the effects of topography and vegetation on water fluxes through the landscape.)
- Model:CMIP + (Data component provides monthly mean temperature for Permafrost Region 1902-2100)
- Model:WINDSEA + (Deep water significant wave height and period simulator during a hurricane routine)
- Model:Flexure + (Deform the lithosphere with 1D or 2D flexure.)
- Model:DeltaRCM Vegetation + (Delta-building model DeltaRCM expanded to include vegetation)
- Model:Demeter + (Demeter - A Land Use and Land Cover Change Disaggregation Model)
- Model:GeoClaw + (Depth-averaged fluid dynamics for modeling geophysical flows and wave propagation)
- Model:Diffusion + (Diffusion of marine sediments due to waves, bioturbation)
- Model:TopoFlow-Channels-Diffusive Wave + (Diffusive Wave process component for flow routing in a D8-based, spatial hydrologic model)
- Model:DLBRM + (Distributed Large Basin Runoff Model)
- Model:DR3M + (Distributed Routing Rainfall-Runoff Model--version II)
- Model:GEOtop + (Distributed hydrological model, water and energy budgets)
- Model:TopoFlow-Diversions + (Diversions component for a D8-based, spatial hydrologic model.)
- Model:DynEarthSol3D + (DynEarthSol3D is a finite element solver that models the momentum balance and the heat transfer of elasto-visco-plastic material in the Lagrangian form.)
- Model:TopoFlow-Channels-Dynamic Wave + (Dynamic Wave process component for flow routing in a D8-based, spatial hydrologic model)
- Model:LONGPRO + (Dynamic evolution of longitudinal profiles)
- Model:Glimmer-CISM + (Dynamic thermo-mechanical ice sheet model)
- Model:AgDegNormalGravMixHyd + (E-book: A module that calculates the evolution of a gravel bed river under an imposed cycled hydrograph.)
- Model:AgDegBW + (E-book: Calculator for aggradation and degradation of a river reach using a backwater formulation.)
- Model:RiverWFRisingBaseLevelNormal + (E-book: Calculator for disequilibrium aggradation of a sand-bed river in response to rising base level.)
- Model:DeltaNorm + (E-book: Calculator for evolution of long profile of a river ending in a 1D migrating delta, using the normal flow approximation.)
- Model:GravelSandTransition + (E-book: Calculator for evolution of long profile of river with a migrating gravel-sand transition and subject to subsidence or base level rise.)
- Model:DeltaBW + (E-book: Calculator for evolution of long profile of a river ending in a 1D migrating delta, using a backwater formulation.)
- Model:GSDCalculator + (E-book: Calculator for statistical characteristics of grain size distributions.)
- Model:AgDegNormalFault + (E-book: Illustration of calculation of aggradation and degradation of a river reach using the normal flow approximation; with an extension for calculation of the response to a sudden fault along the reach.)
- Model:DepDistTotLoadCalc + (E-book: Illustration of calculation of depth-discharge relation, bed load transport, suspended load transport and total bed material load for a large, low-slope sand-bed river.)
- Model:WPHydResAMBL + (E-book: Implementation of the Wright-Parker (2004) formulation for hydraulic resistance combined with the Ashida-Michiue (1972) bedload formulation.)
- Model:SuspSedDensityStrat + (E-book: Module for calculating the effect of density stratification on the vertical profiles of velocity and suspended sediment.)
- Model:FallVelocity + (E-book: Particle fall velocity calculator)
- Model:RouseVanoniEquilibrium + (E-book: Program for calculating the Rouse-Vanoni profile of suspended sediment.)
- Model:AgDegNormalSub + (E-book: Program to calculate the evolution of upward-concave bed profiles in rivers carrying uniform sediment in subsiding basins.)
- Model:AgDegNormGravMixPW + (E-book: calculator for aggradation and degradation of sediment mixtures in gravel-bed streams)
- Model:DredgeSlotBW + (E-book: calculator for aggradation and degradation of sediment mixtures in gravel-bed streams subject to cyclic hydrographs.)
- Model:BedrockAlluvialTransition + (E-book: calculator for aggradation and degradation with a migrating bedrock-alluvial transition at the upstream end.)
- Model:RecircFeed + (E-book: calculator for approach to equilibrium in recirculating and feed flumes)
- Model:SteadyStateAg + (E-book: calculator for approach to equilibrium in recirculating and feed flumes)
- Model:BackwaterWrightParker + (E-book: calculator for backwater curves in sand-bed streams, including the effects of both skin friction and form drag due to skin friction)
- Model:SubsidingFan + (E-book: calculator for evolution of profiles of fans in subsiding basins)
- Model:AgDegNormGravMixSubPW + (E-book: calculator for evolution of upward-concave bed profiles in rivers carrying sediment mixtures in subsiding basins.)
- Model:AgDegNormal + (E-book: illustration of calculation of aggradation and degradation of a river reach using the normal flow approximation.)
- Model:BackwaterCalculator + (E-book: program for backwater calculations in open channel flow)
- Model:Acronym1D + (E-book: program for computing bedload transport in gravel rivers over time.)
- Model:Acronym1 + (E-book: program for computing bedload transport in gravel rivers.)
- Model:Acronym1R + (E-book: program for computing bedload transport in gravel rivers with a Manning-Strickler relation for flow resistance.)
- Model:Kirwan marsh model + (Ecomorphoydamic model of marsh elevation and channel evolution)
- Model:Ecopath with Ecosim + (Ecopath with Ecosim (EwE) is an ecological modeling software suite for personal computers)
- Model:EstuarineMorphologyEstimator + (Empirical Assessment Tool for Bathymetry, Flow Velocity and Salinity in Estuaries Based on Tidal Amplitude and Remotely-Sensed Imagery)
- Model:EF5 + (Ensemble Framework For Flash Flood Forecasting)
- Model:Equilibrium Calculator + (Equilibrium solver of Self-formed, Single-thread, Sand-bed Rivers)
- Model:ELCIRC + (Eulerian-Lagrangian CIRCulation)
- Model:TopoFlow-Evaporation-Energy Balance + (Evaporation process component (Energy Balance method) for a D8-based, spatial hydrologic model)
- Model:TopoFlow-Evaporation-Priestley Taylor + (Evaporation process component (Priestley-Taylor method) for a D8-based, spatial hydrologic model)
- Model:TopoFlow-Evaporation-Read File + (Evaporation process component (read from file method) for a spatially-distributed hydrologic model.)
- Model:Coastal Dune Model + (Evolution of Coastal Foredunes)
- Model:Hogback + (Evolution of a hogback)
- Model:OTTER + (Evolution of a river profile with dynamic width)
- Model:SpeciesEvolver + (Evolve life in a landscape.)
- Model:GRLP + (Evolves gravel-bed river long profiles)
- Model:RiverSynth + (Excel file for creating XYZ coordinates of artificial river valley topography)
- Model:ExponentialWeatherer + (Exponential soil production function in the style of Ahnert (1976))
- Model:GST-extendedmodel + (Extended GST model: combination of an analytical GST migration model combined with closure relations based on the assumption of quasi-equilibrium conditions)
- Model:NEXRAD-extract + (Extract data from NEXRAD Doppler Radar NetCDFs)
- Model:Sun fan-delta model + (Fan-delta and alluvial fan landscape evolution model)
- Model:SinkFiller + (Fill sinks in a landscape to the brim, following the Barnes et al. (2014) algorithms.)
- Model:DepressionFinderAndRouter + (Find depressions on a topographic surface.)
- Model:FVshock + (Finite Volume two-dimensional shock-capturing model.)
- Model:SIMSAFADIM + (Finite element model for fluid flow, clastic, carbonate and evaporate sedimentation)
- Model:Subside + (Flexure model)
- Model:FACET + (Floodplain and Channel Evaluation Tool (FACET))
- Model:FlowDirectorDinf + (Flow direction on a raster grid by the D infinity method.)
- Model:Bifurcation + (Flow-partitioning and avulsion in a river delta bifurcation)
- Model:Erode-D8-Local + (Fluvial Landscape Evolution Model)
- Model:TUGS + (Fluvial gravel and sand transport model)
- Model:Erode + (Fluvial landscape evolution model)
- Model:YANGs + (Fluvial sediment transport model)
- Model:AquaTellUs + (Fluvial-dominated delta sedimentation model)
- Model:Frost Model + (Frost model predicts the likelihood of occurrence of permafrost in the land surface based on the monthly temperature distribution)
- Model:FUNWAVE + (Fully Nonlinear Boussinesq Wave Model)
- Model:FuzzyReef + (Fuzzy logic model to model microbial reef development)
- Model:WACCM-EE + (GCM for deep paleoclimate studies)
- Model:GENESIS + (GENEralized model for SImulating Shoreline change)
- Model:GIPL + (GIPL(Geophysical Institute Permafrost Laboratory) is an implicit finite difference one-dimensional heat flow numerical model.)
- Model:GISS AOM + (GISS Atmosphere-Ocean Model)
- Model:GISS GCM ModelE + (GISS GCM ModelE)
- Model:WDUNE + (GUI implementation of the Werner (1995) cellular automata aeolian dune model)
- Model:TURB + (Gausian distribution calculator of instantaneous shear stresses on the fluvial bed)
- Model:PrecipitationDistribution + (Generate random sequence of precipitation events)
- Model:SpatialPrecipitationDistribution + (Generate random sequence of spatially-resolved precipitation events)
- Model:AR2-sinuosity + (Generates planforms for single-thread channel using a second-order autoregressive model)
- Model:LateralVerticalIncision + (Geometric model to explore autogenic increase of vertical incision rate in entrenching alluvial rivers.)
- Model:Quad + (Geometric model to study the response of fluvial-deltas to base-level changes.)
- Model:DeltaClassification + (Geometry classification of delta islands)
- Model:GEOMBEST++Seagrass + (Geomorphic Model of Barrier, Estuarine, and Shoreface Translations + Marsh + Seagrass)
- Model:GEOMBEST + (Geomorphic Model of Barrier, Estuarine, and Shoreface Translations)
- Model:Coastal Landscape Transect Model (CoLT) + (Geomorphic and carbon evolution of a bay-marsh-forest coastal transect)
- Model:GEOMBEST++ + (Geomorphic model of barrier, estaurine, and shoreface translations plus dynamic marsh plus waves)
- Model:Gc2d + (Glacier / ice sheet evolution model)
- Model:Gospl + (Global Scalable Paleo Landscape Evolution)
- Model:GLUDM + (Global future agricultural land use dynamics model)
- Model:WBMsed + (Global sediment flux and water discharge model.)
- Model:StreamProfilerApp + (Global stream profiler web-app)
- Model:GSFLOW + (Ground-water and Surface-water FLOW model)
- Model:HBV + (HBV model is a rainfall-runoff model)
- Model:HIM + (Hallberg Isopycnal Model)
- Model:HydroCNHS + (HydroCNHS, a Python Package of Hydrological Model for Coupled Natural–Human Systems)
- Model:Hydromad + (Hydrological Model Assessment and Development)
- Model:HYPE + (Hydrological model for simulation of water and water quality over time)
- Model:HEBEM + (Hydrologically Enhanced Basin Evolution Model)
- Model:Plume + (Hypopycnal sediment plume)
- Model:ISSM + (Ice Sheet System Model (ISSM))
- Model:SICOPOLIS + (Ice sheet model)
- Model:Icepack + (Icepack is a Python package for simulating the flow of glaciers and ice sheets, as well as for solving glaciological data assimilation problems.)
- Model:TopoFlow-Infiltration-Green-Ampt + (Infiltration process component (Green-Ampt method) for a D8-based, spatial hydrologic model)
- Model:TopoFlow-Infiltration-Richards 1D + (Infiltration process component (Richards 1D method) for a D8-based, spatial hydrologic model)
- Model:TopoFlow-Infiltration-Smith-Parlange + (Infiltration process component (Smith-Parlange method) for a D8-based, spatial hydrologic model)
- Model:TopoFlow-Channels-Kinematic Wave + (Kinematic Wave process component for flow routing in a D8-based, spatial hydrologic model.)
- Model:LEMming + (LEMming landscape evolution model: a 2-D, regular-grid, rules-based, hybrid finite-difference / cellular automaton model that is designed to explore the effect of multiple rock types on landscape evolution.)
- Model:LISFLOOD + (LISFLOOD - a distributed hydrological rainfall-runoff model)
- Model:LaMEM + (LaMEM - Lithosphere and Mantle Evolution Model)
- Model:MARSSIM + (Landform evolution model)
- Model:SPACE + (Landlab component for 2-D calculation of fluvial sediment transport and bedrock erosion)
- Model:ErosionDeposition + (Landlab component for fluvial erosion/deposition.)
- Model:SoilInfiltrationGreenAmpt + (Landlab component that calculates soil infiltration based on the Green-Ampt solution.)
- Model:LinearDiffuser + (Landlab component that models soil creep as a linear diffusion process)
- Model:VegCA + (Landlab component that simulates inter-species plant competition using a 2D cellular automata model.)
- Model:Landslides + (Landlab component that simulates landslide probability of failure as well as mean relative wetness and probability of saturation.)
- Model:CHILD + (Landscape Evolution Model)
- Model:GOLEM + (Landscape evolution model)
- Model:WILSIM + (Landscape evolution model)
- Model:RASCAL + (Landscape evolution resulting from feedback between flow, vegetation, and sediment)
- Model:CELLS + (Landscape simulation model)
- Model:MARM5D + (Landscape-scale soil evolution model)
- Model:CASCADE + (Large scale SPM based on irregular spatial discretization)
- Model:LateralEroder + (Laterally erode neighbor node through fluvial erosion.)
- Model:SLEPIAN Bravo + (Linear inverse problems using spherical harmonics and spherical Slepian functions)
- Model:HydroRaVENS + (Linear-reservoir hydrological model with snowpack and evapotranspiration)
- Model:LITHFLEX1 + (Lithospheric flexure solution)
- Model:LITHFLEX2 + (Lithospheric flexure solution for a broken plate)
- Model:LOGDIST + (Logrithmic velocity distribution solution)
- Model:CoastMorpho2D + (Long term 2D morphodynamics of coastal areas)
- Model:CICE + (Los Alamos sea ice model)
- Model:MARSSIM V4 + (MARSSIM terrestrial and planetary Landform Evolution Model)
- Model:MODFLOW 6 + (MODFLOW 6 is an object-oriented program and framework developed to provide a platform for supporting multiple models and multiple types of models within the same simulation)
- Model:MODFLOW + (MODFLOW is a three-dimensional finite-difference ground-water model)
- Model:MOM6 + (MOM6 is the latest generation of the Modular Ocean Model which is a numerical model code for simulating the ocean general circulation.)
- Model:MRSAA + (Macro-roughness model framework for treating erosion, bed cover, and sediment transport in bedrock river channels.)
- Model:RivMAP + (Matlab toolbox for mapping and measuring river planform changes)
- Model:KnickZone-Picker + (Matlab-based scripts to extract topometrics for catchments and identify river knickpoints.)
- Model:Manningseq-bouldersforpaleohydrology + (Matlab® code for paleo-hydrological flood flow reconstruction in a fluvial channel)
- Model:TopoFlow-Meteorology + (Meteorology process component for a D8-based, spatial hydrologic model)
- Model:MICOM + (Miami Isopycnic Coordinate Ocean Model)
- Model:Mosartwmpy + (Model for Scale Adaptive River Transport with Water Management in Python)
- Model:TaylorNonLinearDiffuser + (Model non-linear soil creep after Ganti et al. (2012))
- Model:Vegetation + (Model plant dynamics using multiple representative plant species)
- Model:SEDPAK + (Models the sedimentary fill of basins)
- Model:1D Hillslope MCMC + (Monte Carlo chain of 1D non-linear diffusion hillslope model to find most likely boundary conditions)
- Model:Morphodynamic gravel bed + (Morphodynamic evolution of gravel bed rivers)
- Model:XBeach + (Morphological changes, nearshore currents, wave propagation and sediment transport model)
- Model:Mrip + (Mrip is a self-organization type model for the formation and dynamics of megaripples in the nearshore.)
- Model:CVPM + (Multidimensional heat-transfer modeling system for permafrost with advanced unfrozen water physics)
- Model:PotentialityFlowRouter + (Multidirectional flow routing using a novel method.)
- Model:GFlex + (Multiple solution methods for isostasy and lithospheric flexure)
- Model:FlowDirectorMFD + (Multiple-path flow direction with or without out diagonals.)
- Model:STSWM + (NCAR Spectral Transform Shallow Water Model)
- Model:NearCoM + (Nearshore Community Model)
- Model:Nitrate Network Model + (Nitrate and organic carbon dynamics on a wetland-river network)
- Model:PerronNLDiffuse + (Nonlinear diffusion, following Perron (2011).)
- Model:NormalFault + (NormalFault implements relative rock motion due to a normal fault.)
- Model:Elv-GST + (Numerical 1D research code Elv applied to gravel-sand transitions)
- Model:SBEACH + (Numerical Model for Simulating Storm-Induce Beach Change)
- Model:Cliffs + (Numerical model to compute tsunami propagation and runup on land in the shallow-water approximation)
- Model:OGGM + (OGGM is a modular open source model for glacier dynamics)
- Model:Oceananigans.jl + (Oceananigans.jl is a fast and friendly ocean-flavored Julia software for simulating incompressible fluid dynamics in Cartesian and spherical shell domains on CPUs and GPUs.)
- Model:OTTAR + (Ode To Transient (Ancho de los) Rivers: Transient evolution of river-channel width in response to river discharge and bank and sediment properties.)
- Model:OTEQ + (One-Dimensional Transport with Equilibrium Chemistry (OTEQ): A Reactive Transport Model for Streams and Rivers)
- Model:OTIS + (One-Dimensional Transport with Inflow and Storage (OTIS): A Solute Transport Model for Streams and Rivers)
- Model:SRH-1D + (One-dimensional cross section based hydraulic and mobile-bed sediment transport model)
- Model:OpenFOAM + (Open Field Operation and Manipulation is a toolbox for the development of customized numerical solvers.)
- Model:PHREEQC + (PHREEQC version 3 is a computer program written in the C and C++ programming languages that is designed to perform a wide variety of aqueous geochemical calculations)
- Model:PIHM + (PIHM is a multiprocess, multi-scale hydrologic model.)
- Model:Princeton Ocean Model (POM) + (POM: Sigma coordinate coastal & basin circulation model)
- Model:PISM + (Parallel Ice Sheet Model, PISM)
- Model:PSTSWM + (Parallel Spectral Transform Shallow Water Model)
- Model:ParFlow + (Parallel, high-performance, integrated watershed model)
- Model:SETTLE + (Partical settling velocity solution)
- Model:Non Local Means Filtering + (Performs non-local means filtering of a DEM following Buades et al. (2005))
- Model:Kudryavtsev Model + (Permafrost Active Layer Thickness Model based on Kudryavtsev's parametrization)
- Model:REF-DIF + (Phase-resolving parabolic refraction-diffraction model for ocean surface wave propagation.)
- Model:TOPMODEL + (Physically based, distributed watershed model that simulates hydrologic fluxes of water through a watershed)
- Model:Area-Slope Equation Calculator + (Pixel scale Area-Slope equation calculator)
- Model:PsHIC + (Pixel-scale Hypsometric Integral Calculator)
- Model:Point-Tidal-flat + (Point Model for Tidal Flat Evolution model)
- Model:CarboLOT + (Population-ecology based model of shallow-ocean benthic carbonate accumulation)
- Model:PRMS + (Precipitation-Runoff Modeling System)
- Model:WEPP + (Process-based soil erosion by water at field/farm scale)
- Model:DeltaSIM + (Process-response model simulating the evolution and stratigraphy of fluvial dominated deltaic systems)
- Model:PyDeCe + (Python model for Dense Current forming eruptions (PyDeCe) is a tool for modeling the dense endmember of pyroclastic density currents generated either by impulsive column collapse or sustained fountaining eruptions.)
- Model:Landlab + (Python software framework for writing, assembling, and running 2D numerical models)
- Model:SurfaceRoughness + (Quantifies surface roughness with high-resolution topographic data by analyzing the local variability of surface normal vectors.)
- Model:QDSSM + (Quantitative Dynamic Sequence Stratigraphic Model)
- Model:QTCM + (Quasi-equilibrium Tropical Circulation Model)
- Model:GSFLOW-GRASS + (Quickly generates input files for and runs GSFLOW, and visualizes the output)
- Model:ROMSBuilder + (ROMSBuilder is a CCA-CSDMS Modeling Tool (CMT) compliant component that creates another CMT compliant ROMS component. The new ROMS component is build as per the C-preprocessing options that defines a particular ROMS application.)
- Model:FractionalNoises1D + (Read note in extended description. 1D fractional-noise generation with Fourier-filtering method)
- Model:Spirals1D + (Read note in extended description. 1D model of spiral troughs on Mars)
- Model:FractionalNoises2D + (Read note in extended description. 2D Gaussian fractional-noise generation with Fourier-filtering method)
- Model:LavaFlow2D + (Read note in extended description. 2D radially symmetric lava flow model)
- Model:ADI-2D + (Read note in extended description. Advection Diffusion Implicit (ADI) method for solving 2D diffusion equation)
- Model:Coupled1D + (Read note in extended description. Coupled 1D bedrock-alluvial channel evolution)
- Model:FillinPitsFlatsDEM + (Read note in extended description. Filling in pits and flats in a DEM)
- Model:FTCS2D + (Read note in extended description. Forward Time Centered Space (FTCS) method for 2D diffusion equation)
- Model:FTCS2D-TerraceDiffusion + (Read note in extended description. Forward Time Centered Space (FTCS) method for 2D Terrace diffusion)
- Model:FTCS1D-NonLinear + (Read note in extended description. Forward Time Centered Space (FTCS) method for 1D nonlinear diffusion equation)
- Model:Flex2D + (Read note in extended description. Fourier filtering in 2D while solving the flexure equation)
- Model:Flex1D + (Read note in extended description. Fourier filtering in 1D while solving the flexure equation)
- Model:Bedrock Erosion Model + (Read note in extended description. Knickpoint propagation in the 2D sediment-flux-driven bedrock erosion model)
- Model:StreamPower + (Read note in extended description. Modeling the development of topographic steady state in the stream-power model)
- Model:MFDrouting + (Read note in extended description. Multiple Flow Direction (MFD) flow routing method)
- Model:Fourier-Bessel-integration + (Read note in extended description. Numerical integration of Fourier-Bessel terms)
- Model:Ice-sheet-Glacier-reconstruction + (Read note in extended description. Sandpile method for ice-sheet and glacier reconstruction)
- Model:Channel-Oscillation + (Read note in extended description. Simulates Oscillations in arid alluvial channels)
- Model:Flex2D-ADI + (Read note in extended description. Solving the flexure equation applying Advection Diffusion Implicit (ADI) method)
- Model:Iceages + (Read note in extended description. Stochastic-resonance subroutine of Pleistocene ice ages)
- Model:MFDrouting-Successive + (Read note in extended description. Successive flow routing with Multiple Flow Direction (MFD) method)
- Model:Eolian Dune Model + (Read note in extended description. Werner's model for eolian dune formation and evolution)
- Model:PyDeltaRCM + (Reduced complexity river delta formation and evolution model with channel dynamics)
- Model:RCPWAVE + (Regional Coastal Processes Wave Model)
- Model:BTLESS + (Regional Ecological Model for Coastal Wetlands)
- Model:RHESSys + (Regional Hydro-Ecologic Simulation System)
- Model:ROMS + (Regional Ocean Modeling System)
- Model:Reservoir + (Reservoir: Tools for Analysis, Design, and Operation of Water Supply Storages)
- Model:RAFEM + (River Avulsion and Floodplain Evolution Module)
- Model:River Temperature Model + (River Temperature Model based on heat balance approach)
- Model:DeltaRCM + (River delta formation and evolution model with channel dynamics)
- Model:Mocsy + (Routines to model the ocean carbonate system)
- Model:AlluvStrat + (Rules-based model to generate a 2-dimensional cross section of alluvial stratigraphy based on fluvial processes)
- Model:SFINCS + (SFINCS, a reduced-physics solver to compute compound flooding in coastal systems due to fluvial, pluvial, tidal, wind- and wave-driven processes)
- Model:SIBERIA + (SIBERIA simulates the evolution of landscapes under the action of runoff and erosion over long times scales.)
- Model:SIGNUM + (SIGNUM (Simple Integrated Geomorphological Numerical Model) is a MAtlab TIN-based landscape evolution model)
- Model:SINUOUS + (SINUOUS - Meander Evolution Model)
- Model:SWAN + (SWAN is a third-generation wave model)
- Model:SWAT + (SWAT is a river basin scale model developed to quantify the impact of land management practices in large, complex watersheds.)
- Model:TopoFlow-Saturated Zone-Darcy Layers + (Saturated Zone process component (Darcy's law, multiple soil layers) for a D8-based, spatial hydrologic model)
- Model:SedPlume + (SedPlume simulates glacial meltwater plume dynamics and sedimentation.)
- Model:Compact + (Sediment compaction)
- Model:TreeThrow + (Sediment transport by tree throw on hillslopes)
- Model:Sedtrans05 + (Sediment transport model for continental shelf and estuaries)
- Model:GPM + (Sedimentary process modeling software)
- Model:SELFE + (Semi-implicit Eulerian–Lagrangian Finite Element)
- Model:GNE + (Set of biogeochemical sub-models that predicts river export)
- Model:SVELA + (Shear velocity solution associated with grain roughness)
- Model:DetachmentLtdErosion + (Simulate detachment limited sediment transport.)
- Model:DELTA + (Simulates circulation and sedimentation in a 2D turbulent plane jet and resulting delta growth)
- Model:ENTRAIN + (Simulates critical shear stress of median grain sizes)
- Model:ENTRAINH + (Simulates critical shields theta for median grain sizes)
- Model:FLDTA + (Simulates flow characteristics based on gradually varied flow equation)
- Model:RiverMUSE + (Simulates freshwater mussel populations' response to changes in suspended sediment)
- Model:Marsh column model + (Simulates sediment, roots and carbon accumulating in a 1D marsh profile.)
- Model:Meander Centerline Migration Model + (Simulation of the long-term migration of meandering rivers flowing above heterogeneous floodplains)
- Model:FlowDirectorD8 + (Single-path (steepest direction) flow direction with diagonals on rasters.)
- Model:FlowDirectorSteepest + (Single-path (steepest direction) flow direction without diagonals.)
- Model:SPHYSICS + (Smoothed Particle Hydrodynamics code)
- Model:TopoFlow-Snowmelt-Degree-Day + (Snowmelt process component (Degree-Day method) for a D8-based, spatial hydrologic model)
- Model:TopoFlow-Snowmelt-Energy Balance + (Snowmelt process component (Energy Balance method) for a D8-based, spatial hydrologic model)
- Model:LOADEST + (Software for estimating constituent loads in streams and rivers)
- Model:DepthDependentDiffuser + (Soil depth-dependent linear hillslope diffuser)
- Model:SBM + (Sorted Bedform Model)
- Model:SEA + (Southamption--East Anglia)
- Model:DFMFON + (Spatially-Explicit Mangrove-Mudflat Dynamic Model)
- Model:TopoFlow + (Spatially-distributed, D8-based hydrologic model)
- Model:SEOM + (Spectral Element Ocean Model)
- Model:SLEPIAN Charlie + (Spectral estimation problems using spherical harmonics and spherical Slepian functions)
- Model:WAVEWATCH III ^TM + (Spectral wind wave model)
- Model:SISV + (Spectral, Implicit, Streamfunction-Vorticity solver)
- Model:STWAVE + (Steady-State Spectral Wave Model)
- Model:Inflow + (Steady-state hyperpycnal flow model)
- Model:SWMM + (Storm Water Management Model)
- Model:Avulsion + (Stream avulsion model)
- Model:Bing + (Submarine debris flows)
- Model:SUSP + (Suspended load transport subroutine)
- Model:TISC + (TISC integrates quantitative models of lithospheric flexure, fault deformation, and surface mass transport (erosion/transport/sedimentation) along drainage networks.)
- Model:TOPOG + (TOPOG is a terrain analysis-based hydrologic modelling package)
- Model:LakeMapperBarnes + (Temporarily fills depressions and reroutes flow across them)
- Model:ATS (The Advanced Terrestrial Simulator) + (The Advanced Terrestrial Simulator (formerly sometimes known as the Arctic Terrestrial Simulator) is a code for solving ecosystem-based, integrated, distributed hydrology.)
- Model:ApsimX + (The Agricultural Production Systems sIMulator (APSIM))
- Model:CLUMondo + (The CLUMondo model is a spatially explicit and dynamics land system change model)
- Model:TopoFlow-Data-HIS + (The CUAHSI Hydrologic Information System)
- Model:ChannelProfiler + (The ChannelProfiler extracts and plots channel networks from a landlab grid.)
- Model:CREST + (The Coupled Routing and Excess STorage (CREST) model is a distributed hydrologic model developed to simulate the spatial and temporal variation of atmospheric, land surface, and subsurface water fluxes and storages by cell-to-cell simulation.)
- Model:GreenAmptInfiltrationModel + (The Green-Ampt method of infiltration estimation.)
- Model:GroundwaterDupuitPercolator + (The GroundwaterDupuitPercolator solves the Boussinesq equation for flow in an unconfined aquifer over an impermeable aquifer base and calculates groundwater return flow to the surface.)
- Model:HyLands + (The HyLands model simulates the impact of bedrock landslides on topographic evolution and sediment dynamics.)
- Model:Instructed Glacier Model + (The Instructed Glacier Model (IGM) simulates the ice dynamics, surface mass balance, and its coupling through mass conservation to predict the evolution of glaciers, icefields, or ice sheets)
- Model:ILAMB + (The International Land Model Benchmarking (ILAMB) toolkit)
- Model:LTRANS + (The Larval TRANSport Lagrangian model (LTRANS) is an off-line particle-tracking model that runs with the stored predictions of a 3D hydrodynamic model, specifically the Regional Ocean Modeling System (ROMS).)
- Model:MITgcm + (The MITgcm (MIT General Circulation Model) is a numerical model designed for study of the atmosphere, ocean, and climate.)
- Model:Permafrost Benchmark System + (The PBS is a web-based tool for conducting benchmarking studies of permafrost models.)
- Model:SPARROW + (The SPARROW Surface Water-Quality Model)
- Model:SLAMM 6.7 + (The Sea Level Affecting Marshes Model (SLAMM))
- Model:CBOFS2 + (The Second Generation Chesapeake Bay Operational Forecast System (CBOFS2): A ROMS‐Based Modeling System)
- Model:FVCOM + (The Unstructured Grid Finite Volume Coastal Ocean Model)
- Model:UEB + (The Utah Energy Balance (UEB) Grid snowmelt model)
- Model:WRF-Hydro + (The WRF-Hydro® Modeling System, an open-so … The WRF-Hydro® Modeling System, an open-source community model, is used for a range of projects, including flash flood prediction, regional hydroclimate impacts assessment, seasonal forecasting of water resources, and land-atmosphere coupling studies. It produces forecasts and analyses for all major terrestrial water-cycle components: Precipitation, Streamflow, Soil moisture, Snowpack, Flooding, Groundwater.moisture, Snowpack, Flooding, Groundwater.)
- Model:WWTM + (The WWTM (Wind Wave Tidal Model) has been developed to describe hydrodynamic and wind-wave generation and propagation within shallow tidal environments)
- Model:Tracer dispersion calculator + (The model computes the streamwise and vertical dispersal of a patch of tracers in a gravel bed river)
- Model:CrevasseFlow + (The module calculates crevasse splay morphology and water discharge outflow of a crevasse splay.)
- Model:FireGenerator + (This component generates a random fire event or fire time series from the Weibull statistical distribution.)
- Model:DepthDependentTaylorDiffuser + (This component implements a depth-dependent Taylor series diffusion rule, combining concepts of Ganti et al. (2012) and Johnstone and Hilley (2014).)
- Model:OverlandFlowBates + (This component simulates overland flow using the 2-D numerical model of shallow-water flow over topography using the Bates et al. (2010) algorithm for storage-cell inundation modeling.)
- Model:LumSoilMixer + (This is a model to simulate the non-dimensionalized luminescence in a mixing soil.)
- Model:Bedrock Fault Scarp + (This is a two-dimensional numerical model that computes the topographic evolution of the facet slope in the footwall of an active normal fault.)
- Model:GullyErosionProfiler1D + (This model is designed to simulate longitudinal profiles with headward advancing headcuts.)
- Model:GISKnickFinder + (This python code can be used to find knickpoints and extract information about streams, it utilizes built-in functions of ArcGIS.)
- Model:2DFLOWVEL + (Tidal & wind-driven coastal circulation routine)
- Model:D'Alpaos model + (Tidal network and marsh model)
- Model:PIHMgis + (Tightly coupled GIS interface for the Penn State Integrated Hydrologic Model)
- Model:Chi analysis tools + (Tool for examining channel profiles in chi-elevation space using the integral method of channel analysis)
- Model:ModelParameterDictionary + (Tool written in Python for reading model input parameters from a simple formatted text file.)
- Model:Hilltop and hillslope morphology extraction + (Tools for extracting hilltops and analysing hillslope morphology)
- Model:TopoFlow-DEM Smoother + (TopoFlow-DEM Smoother)
- Model:TransportLengthHillslopeDiffuser + (Transport length hillslope diffusion.)
- Model:Underworld2 + (Underworld2 is an open-source, particle-in-cell finite element code tuned for large-scale geodynamics simulations.)
- Model:VIC + (VIC (Variable Infiltration Capacity) is a macroscale hydrologic model that solves full water and energy balances, originally developed by Xu Liang at the University of Washington.)
- Model:WOFOST + (WOFOST (WOrld FOod STudies) is a simulation model for the quantitative analysis of the growth and production of annual field crops.)
- Model:WBM-WTM + (Water Balance/Transport Model)
- Model:WASH123D + (Watershed Model, River Hydraulics, Overland Flow, Subsurface Flow, Sediment Transport, Water Quality Transport)
- Model:WSGFAM + (Wave and current supported sediment gravity flow model)
- Model:OlaFlow + (Wave generation and active absorption interaction with porous structures framework)
- Model:WAVEREF + (Wave refraction routine)
- Model:FluidMud + (Wave-phase resolving numerical model for fluid mud transport)
- Model:WRF + (Weather Research and Forecasting Model)
- Model:WACCM Dust-Sulfur + (Whole atmosphere module of sulfate aerosols.)
- Model:STORM + (Windfield simulator for a cyclone)
- Model:FUNDY + (a 3-D diagnostic model for continental shelf circulation studies)
- Model:HSPF + (a comprehensive package for simulation of watershed hydrology and water quality for both conventional and toxic organic pollutants)
- Model:The TELEMAC system + (a powerful integrated modeling tool for use in the field of free-surface flows.)
- Model:WACCM-CARMA + (atmospheric/aerosol microphysical model)
- Model:SimClast + (basin-scale 3D stratigraphic model)
- Model:CruAKTemp + (cruAKtemp is a data component to access a subsample of CRU NCEP data temperature for Alaska)
- Model:CVFEM Rift2D + (multi-physics numerical model that simulates rock deformation, fluid flow, solute transport and heat transfer in response to ice sheet loading of multiple cycles)
- Model:ESCAPE + (parallel global-scale landscape evolution model)
- Model:TAo + (tAo is a software designed to model the interplay between lithosphere flexure and surface transport (erosion/sedimentation), particularly during the formation of orogens and foreland sedimentary basins (see details).)