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A list of all pages that have property "Describe processes" with value "sediment transport, vegetation drag". Since there have been only a few results, also nearby values are displayed.

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List of results

  • Model:DECAL  + (development of dune landscapes under the interaction between aeolian sand transport and vegetation growth and response)
  • Model:Delft3D  + (drying/flooding, turbulence and large eddidrying/flooding, turbulence and large eddies, stratification, internal waves, density effects of salinity, temperature and sediment, free surface flow, wave-current interaction, wind forcing, precipitation and evaporation, sediment sorting, fluid mud, morphological change, biochemical reactions, algae modelling, nutrient cycling, atmosphere-water exchange, adsorption and desorption of substances, deposition and re-suspension of particles and adsorbed substances, bacterial , predationadsorbed substances, bacterial , predation)
  • Model:FineSed3D  + (fine sediment transport in the bottom boundary layer)
  • Model:SIMSAFADIM  + (fluid flow (2D potential flow), clastic sediment transport and deposition, carbonate deposition and transport, evaporate deposition, sea level change and coastline movement)
  • Model:TURB  + (fluid turbulence on a wall of given hydraulic roughness)
  • Model:Gospl  + (global-scale forward models of landscape evolution, dual-lithology (coarse and fine) sediment routing and stratigraphic history forced with deforming plate tectonics, paleotopographies and paleoclimate reconstructions.)
  • Model:ISSM  + (ice stress balance, ice mass transport / fice stress balance, ice mass transport / free surface, ice thermal (cold- and enthalpy-based), dual continuum hydrology, SHAKTI hydrology, GlaDS hydrology, ice damage mechanics, transient (time-dependent projection), grounding line dynamics, glacial isostatic adjustment (GIA), solid earth elastic response, sea-level fingerprints, positive degree day (PDD), surface energy balance (snow densification and surface mass balance calculation with the GEMB model), basal melt parameterizations (PICO/PICOP), empirical scalar tertiary anisotropy regime (ESTAR), uncertainty quantification capabilities (Dakota)ainty quantification capabilities (Dakota))
  • Model:DeltaSIM  + (longterm 2D deltaic sedimentation and clinoform formation for fluvial dominated deltas)
  • Model:ModelParameterDictionary  + (n/a)
  • Model:Drainage Density  + (n/a)
  • Model:RivMAP  + (n/a)
  • Model:CruAKTemp  + (n/a)
  • Model:SETTLE  + (non-hindered grain settling)
  • Model:Bifurcation  + (quasi-normal flow (1D) downstream and transverse sediment fluxes mass conservation (Exner))
  • Model:SedFoam-2.0  + (sediment transport drive by turbulent/laminar flows)
  • Model:GEOMBEST  + (see User's Guide and Moore et al., 2010)
  • Model:WBMsed  + (see: Sagy Cohen, Albert J. Kettner, James P.M. Syvitski, Balazs M. Fekete, WBMsed, a distributed global-scale riverine sediment flux model: Model description and validation, Computers and Geosciences, ISSN 0098-3004, 10.1016/j.cageo.2011.08.011.)
  • Model:XBeach  + (short wave propagation, infragravity waves, shear waves, swash, overtopping, overwashing, breaching, longshore current, cross-shore current, suspended sediment transport, morphological changes, dune erosion)
  • Model:HydroPy  + (snowmelt process, skin and canopy processes, soil processes, surface water and shallow groundwater processes, river routing)
  • Model:Sedflux  + (surface plumes, hyperpycnal plumes, sediment slope failure that results in turbidity currents or debris flows, subsidence, compaction, sediment remobilization due to waves and currents, river avulsion)
  • Model:TAo  + (tAo is an open-source software designed totAo is an open-source 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). This 2D (cross-section) numerical model calculates 1D lithospheric flexure with different rheologies, in combination with fault kinematics, other isostatic loads, and erosion/deposition. Erosion models include both constant-rate and climate-based approaches. The programs are developed in C for Linux platforms, graphic output is produced using GMT scripts, and standard PCs match the CPU and memory requirements. The software is available under a GPL license.software is available under a GPL license.)
  • Model:MAST-1D sand and mud  + (the module describes how channel bed profithe module describes how channel bed profile, channel width and depth, as well as bankfull discharge, can change due to the imbalance between the hydrologic regime (flow duration curve), the supply of sand and mud, sand transport capacity and exchange of sand and mud between the channel and the floodplain for point bar deposition, bank migration and overbank deposition.n, bank migration and overbank deposition.)
  • Model:MITgcm  + (too many to describe)
  • Model:YANGs  + (total sediment load transport)
  • Model:WACCM-CARMA  + (virtually all earth atmospheric processes)
  • Model:WINDSEA  + (water surface wave genesis)
  • Model:Mosartwmpy  + (water volume flux, water supply, reservoir operations)
  • Model:WAVEREF  + (wave refraction)
  • Model:FluidMud  + (wave-current boundary layer and fluid mud transport. dilute suspension. wave-supported gravity-driven mudflow. turbulence modulation due to sediment. tidal-driven fluid mud transport. Floc dynamics. Rheology.)
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