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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:Quad  + (We model sedimentation in a fluvio-deltaic … We model sedimentation in a fluvio-deltaic system under base-level changes. Possible dynamics include: (1) river aggradation (i.e., a seawards migration of the alluvial-basement transition), (2) river degradation (i.e., a landwards migration of the alluvial-basement transition), (3) regression (i.e., a seawards migration of the shoreline), and (4) transgression (e.g., a landwards migration of the shoreline)., a landwards migration of the shoreline).)
• Model:Bedrock Fault Scarp  + (Weathering and erosion of bedrock on a hillslope; vertical and horizontal displacement due to earthquakes.)
• Model:CMFT  + (Wind waves are computed by wave action pro … Wind waves are computed by wave action propagation, tidal current are computed with a quasi static approximation. Bottom shaer stress, computed from a combination ot the two, induces bottom erosion. Suspended sediment are advected / diffused by tidal current, and eventually sedimented back. A different erosional process are used where waves break on a vertical obstacle (the vertical scarp at the marsh boundary). Vegetation is computed as a function of the ground elevation respect to the mean tidal level. Vegetation change bottom erodability and the sediment trapping.tom erodability and the sediment trapping.)
• Model:STORM  + (cyclone winds)
• Model:Zscape  + (described on project webpage)
• 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 eddi … drying/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 / f … ice 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:AnugaSed  + (sediment transport, vegetation drag)
• 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 to … tAo 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: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.)