Property:One-line model description

From CSDMS

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Showing 100 pages using this property.
G
Cellular automaton model of hillslope evolution  +
C
Cellular landscape evolution model  +
U
Chesapeake Bay Application, special case of Regional Ocean Modeling System (ROMS)  +
C
Chesapeake Bay ROMS Community Model (ChesROMS), special case of ROMS  +
H
Climate driven hydrological transport model  +
C
Coarse-grained delta dynamics and stratigraphy  +
A
Coastal Circulation and Storm Surge Model  +
B
Coastal barrier island transgression model  +
S
Coastal evolution model  +
C
Coastline evolution model  +
D
Code for estimating long-term exhumation histories and spatial patterns of short-term erosion from the detrital thermochronometric data.  +
Component for calculating drainage density in Landlab given a channel network  +
O
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.  +
F
Component to accumulate flow and calculate drainage area.  +
L
Component to calculate drainage area and accumulate flow, while permitting dynamic loss or gain of flow downstream.  +
S
Computation of spherical harmonics, Slepian functions, and transforms  +
Computation of vectorial spherical harmonics, vectorial Slepian functions, and transforms  +
R
Compute 1D and 2D total incident shortwave radiation.  +
S
Compute fluvial erosion using stream power theory with a numerically smoothed threshold  +
F
Compute fluvial erosion using stream power theory (“fastscape” algorithm)  +
S
Compute fluvial erosion using using “tools and cover” theory  +
Compute the decay of soil moisture saturation at storm-interstorm time period  +
B
Computes evolution of a bedrock river longitudinal profile in the presence of large, hillslope-derived blocks.  +
Z
Controls zones and populates them with taxa.  +
C
Coupled Barrier Island-Resort Model  +
G
Coupled distributed engineering hydrology, sediment, contaminant fate/transport  +
M
Coupled flow- heterogeneous sediment routing model  +
C
Coupled salt Marsh - tidal Flat Transect model  +
F
Create a 2D grid with randomly generated fractures.  +
L
Create a Lithology object with different properties  +
C
Cross-Shore Sediment Flux Equations  +
CryoGrid 3 is a simple land-surface scheme dedicated to modeling of ground temperatures in permafrost environments.  +
D
DHSVM is a distributed hydrologic model that explicitly represents the effects of topography and vegetation on water fluxes through the landscape.  +
C
Data component provides monthly mean temperature for Permafrost Region 1902-2100  +
W
Deep water significant wave height and period simulator during a hurricane routine  +
F
Deform the lithosphere with 1D or 2D flexure.  +
D
Delta-building model DeltaRCM expanded to include vegetation  +
Demeter - A Land Use and Land Cover Change Disaggregation Model  +
G
Depth-averaged fluid dynamics for modeling geophysical flows and wave propagation  +
D
Diffusion of marine sediments due to waves, bioturbation  +
T
Diffusive Wave process component for flow routing in a D8-based, spatial hydrologic model  +
D
Distributed Large Basin Runoff Model  +
Distributed Routing Rainfall-Runoff Model--version II  +
G
Distributed hydrological model, water and energy budgets  +
T
Diversions component for a D8-based, spatial hydrologic model.  +
D
DynEarthSol3D is a finite element solver that models the momentum balance and the heat transfer of elasto-visco-plastic material in the Lagrangian form.  +
T
Dynamic Wave process component for flow routing in a D8-based, spatial hydrologic model  +
L
Dynamic evolution of longitudinal profiles  +
G
Dynamic thermo-mechanical ice sheet model  +
A
E-book: A module that calculates the evolution of a gravel bed river under an imposed cycled hydrograph.  +
E-book: Calculator for aggradation and degradation of a river reach using a backwater formulation.  +
R
E-book: Calculator for disequilibrium aggradation of a sand-bed river in response to rising base level.  +
D
E-book: Calculator for evolution of long profile of a river ending in a 1D migrating delta, using the normal flow approximation.  +
G
E-book: Calculator for evolution of long profile of river with a migrating gravel-sand transition and subject to subsidence or base level rise.  +
D
E-book: Calculator for evolution of long profile of a river ending in a 1D migrating delta, using a backwater formulation.  +
G
E-book: Calculator for statistical characteristics of grain size distributions.  +
A
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.  +
D
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.  +
W
E-book: Implementation of the Wright-Parker (2004) formulation for hydraulic resistance combined with the Ashida-Michiue (1972) bedload formulation.  +
S
E-book: Module for calculating the effect of density stratification on the vertical profiles of velocity and suspended sediment.  +
F
E-book: Particle fall velocity calculator  +
R
E-book: Program for calculating the Rouse-Vanoni profile of suspended sediment.  +
A
E-book: Program to calculate the evolution of upward-concave bed profiles in rivers carrying uniform sediment in subsiding basins.  +
E-book: calculator for aggradation and degradation of sediment mixtures in gravel-bed streams  +
D
E-book: calculator for aggradation and degradation of sediment mixtures in gravel-bed streams subject to cyclic hydrographs.  +
B
E-book: calculator for aggradation and degradation with a migrating bedrock-alluvial transition at the upstream end.  +
R
E-book: calculator for approach to equilibrium in recirculating and feed flumes  +
S
E-book: calculator for approach to equilibrium in recirculating and feed flumes  +
B
E-book: calculator for backwater curves in sand-bed streams, including the effects of both skin friction and form drag due to skin friction  +
S
E-book: calculator for evolution of profiles of fans in subsiding basins  +
A
E-book: calculator for evolution of upward-concave bed profiles in rivers carrying sediment mixtures in subsiding basins.  +
E-book: illustration of calculation of aggradation and degradation of a river reach using the normal flow approximation.  +
B
E-book: program for backwater calculations in open channel flow  +
A
E-book: program for computing bedload transport in gravel rivers over time.  +
E-book: program for computing bedload transport in gravel rivers.  +
E-book: program for computing bedload transport in gravel rivers with a Manning-Strickler relation for flow resistance.  +
K
Ecomorphoydamic model of marsh elevation and channel evolution  +
E
Ecopath with Ecosim (EwE) is an ecological modeling software suite for personal computers  +
Empirical Assessment Tool for Bathymetry, Flow Velocity and Salinity in Estuaries Based on Tidal Amplitude and Remotely-Sensed Imagery  +
Ensemble Framework For Flash Flood Forecasting  +
Equilibrium solver of Self-formed, Single-thread, Sand-bed Rivers  +
Eulerian-Lagrangian CIRCulation  +
T
Evaporation process component (Energy Balance method) for a D8-based, spatial hydrologic model  +
Evaporation process component (Priestley-Taylor method) for a D8-based, spatial hydrologic model  +
Evaporation process component (read from file method) for a spatially-distributed hydrologic model.  +
C
Evolution of Coastal Foredunes  +
H
Evolution of a hogback  +
O
Evolution of a river profile with dynamic width  +
S
Evolve life in a landscape.  +
G
Evolves gravel-bed river long profiles  +
R
Excel file for creating XYZ coordinates of artificial river valley topography  +
E
Exponential soil production function in the style of Ahnert (1976)  +
G
Extended GST model: combination of an analytical GST migration model combined with closure relations based on the assumption of quasi-equilibrium conditions  +
N
Extract data from NEXRAD Doppler Radar NetCDFs  +
S
Fan-delta and alluvial fan landscape evolution model  +
Fill sinks in a landscape to the brim, following the Barnes et al. (2014) algorithms.  +
D
Find depressions on a topographic surface.  +
F
Finite Volume two-dimensional shock-capturing model.  +
S
Finite element model for fluid flow, clastic, carbonate and evaporate sedimentation  +
Flexure model  +