Search by property

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:SEDPAK  + (Sealevel, Subsidence, Start Time, End Time, Sedimentation Rates, Initial basin surface)
• Model:D'Alpaos model  + (Sediment availability, vegetation characteristics, tidal forcing, rate of relative sea level rise, tidal network configuration and marsh topography if an actual domain is considered.)
• Model:Compact  + (Sediment porosity, closest-packed porosity, compaction coefficient)
• Model:Rescal-snow  + (See 'rescal_snow_inputs' in docs)
• Model:NearCoM  + (See documentation.)
• Model:GeoTiff Data Component  + (See documentation: https://bmi-geotiff.readthedocs.io)
• Model:Topography Data Component  + (See documentation: https://bmi-topography.readthedocs.io)
• Model:WAVEWATCH III Data Component  + (See documentation: https://bmi-wavewatch3.readthedocs.io)
• Model:GridMET Data Component  + (See documentation: https://pymt-gridmet.readthedocs.io)
• Model:Hilltop and hillslope morphology extraction  + (See included readme)

• Model:SPHYSICS  + (See manual)

• Model:Glimmer-CISM  + (See paper)
• Model:RiverMUSE  + (See the readme file.)
• Model:TOPOG  + (See website, too many to describe: http://www-data.wron.csiro.au/topog/)
• Model:SWAT  + (See: https://swat.tamu.edu/)
• Model:Sun fan-delta model  + (Several, as defined in wrapper script)
• Model:GENESIS  + (Shoreline position, time series of offshore wave height, period, and direction. Coastal structures and their physical attributes. Optionally, nearshore wave information from an external wave model.)
• Model:AquaTellUs  + (Simulation time (t) and time step (dt), Initial grid size and slope, Incoming discharge and sediment load (t), Sea level (t), no of grain size classes, grain size distribution, grain size. Sediment transport coeficients)
• Model:DeltaSIM  + (Simulation time and time step, Initial profile, Stochastic sediment input (t), Sea level (t), Sediment transport parameters (i.e. travel distances))
• Model:SLAMM 6.7  + (Slope Data: Slope of each cell, used to ca … Slope Data: Slope of each cell, used to calculate partial changes in cell composition. As</br>derived from the Digital Elevation Map. (units are degrees)</br>• DEM Data: Digital Elevation Map data. Preferrable derived from LiDAR. Contour data</br>(from the National Elevation Database, for example) are typically</br>inappropriate to use for calculating sea level rise effects but serve as data in</br>areas where more precise data are not available ( in this case the elevation</br>preprocessor module may be used). (units are meters)</br>• NWI Data: National Wetlands Inventory categories. Dominant wetland category for</br>each cell is converted into SLAMM categories. This is also used to refine</br>elevation estimates for each cell. Table 4 provides the crosswalk information</br>for Cowardin codes to SLAMM categories</br>• Dike Data: Boolean defining whether each cell is protected by dikes or not. This is</br>available as an attribute of the NWI data, special modifier “h.”</br>• IMP Data: Percent impervious raster, derived from National Land Cover Dataset. Dry</br>land with percent impervious greater than 25% is assumed to be “developed</br>dry land.”25% is assumed to be “developed dry land.”)
• Model:GNE  + (Source inputs consist of global, spatially … Source inputs consist of global, spatially distributed (GIS) raster datasets: hydrological properties (river basin systems, runoff, reservoirs, irrigation, rainfall), topographic slope, land use, agricultural N & P inputs (fertilizer, manure), atmospheric N deposition, sewage, N fixation, etc.spheric N deposition, sewage, N fixation, etc.)