Property:Describe output parameters model

Shoreline and alluvial-bedrock transition trajectories over time. Future versions of the model will include the profile evolution.  +

Shoreline position, breaking wave information, estimated longshore sand transport rates.  +

Simple ascii files containing x and z coordinates of points at end of run. Optional output of figure in .eps format.  +

Snow melt  +

Snowpack creates various output files: * the current state of its soil and snow layers in ".sno" files; * the current state of its hazard relevant data in ".haz" files; * a time serie of snow profiles; * a time serie of the meteorological data and fluxes as used in the model.  +

Solute concentrations as a function of space and time  +

Storm, monthly, yearly, or average annual runoff, soil loss, and sediment yield from a hillslope profile. Spatial distribution of soil erosion and deposition on slope profiles. Graphical output available of 92 parameters from continuous model simulations (including precip, temperatures, runoff, soil loss, sediment yield, biomass production, residue cover, etc.). Soil output text file, water balance output text file, plant output text file, storm event output file, overland flow element summary line output file.  +

Temperature distribution with depth Active Layer Depth Freezing/Thawing day  +

Temporally evolving longitudinal profile and cross-sectional average flows of a 1D river  +

The Landlab OverlandFlow component outputs data as Landlab fields - numpy arrays containing data with the associated CSDMS standard name, listed below: 'surface_water__depth' : NumPy array of length nnodes. Water depths at a given time step. 'surface_water__discharge' : NumPy array of length nlinks. Water discharge values at a given time step. 'water_surface__gradient' : NumPy array of length nlinks. Water surface gradient at a given time step.  +

The PBS wraps ILAMB, which produces tabular and graphical statistics from a benchmark analysis. These outputs can be viewed in ILAMB, or downloaded to a user's local machine as a tarball.  +

The WBMplus model can output any variables used for the water balance and transport calculations. WBMsed unique output are: sediment-flux, over-bank water discharge, and all the BQART parameters.  +

The code outputs the following text files: “topoout.txt” – elevation for each grid point at the end of the simulation “depth.txt” – flow depth at each grid point at the end of the simulation “uh.txt” – value of conserved variable UH at each grid point “vh.txt” – value of conserved variable VH at each grid point “ch.txt” – value of conserved variable CH at each grid point “m.txt” – mass of sediment in the deposited layer at each grid point “c.txt” – sediment concentration at each grid point “vel.txt” – flow velocity at each grid point “stage.txt” – time series data (time (s), flow depth, flow velocity, and sediment concentration) at the outlet pixel “maxvel.txt” – maximum flow velocity recorded at each grid point throughout the simulation “maxdepth.txt” -- maximum flow depth recorded at each grid point throughout the simulation “saveflow.txt” – time series data (flow depth, flow velocity, sediment concentration) at user specified grid points “topomovie.txt” – elevation data at different times throughout the simulation (specified in the code by “printinterval”) “depthmovie.txt” – flow depth at different times throughout the simulation “velocitymovie.txt” – flow velocity at different times throughout the simulation “cmovie.txt” – sediment concentration at different times throughout the simulation “Mmovie.txt” – mass of sediment in the deposited layer at different times throughout the simulation  +

The component provides monthly temperature data in degrees Celcius. Within the CSDMS framework, the component generates an NetCDF file of a stacked grid of monthly temperatures over the specified region.  +

The computed outflow from any flow plane, pipe, or channel segment for each storm period may be written to the output file or to the WDM file. A summary of the measured and simulated rainfall, runoff, and peak flows is written to the output file. A flat file containing the storm rainfall, measured flow (if available), and simulated flow at user selected sites can be generated. A flat file for each storm containing the total rainfall, the measured peak flow (if available), and the simulated peak flow for user-selected sites can be generated.  +

The data component provides monthly temperature as a NetCDF file for the region of Alaska  +

The following output files are available to the user, depending on their run configuration: 1. Land surface model output 2. Land surface diagnostic output 3. Streamflow output at all channel reaches/cells 4. Streamflow output at forecast points or gage reaches/cells 5. Streamflow on the 2D high resolution routing grid (gridded channel routing only) 6. Terrain routing variables on the 2D high resolution routing grid 7. Lake output variables 8. Ground water output variables 9. A text file of streamflow output at either forecast points or gage locations For a detailed table of each variable contained within each output file, see the WRF-Hydro Output Variable Matrix V5 located on our website https://ral.ucar.edu/projects/wrf_hydro/technical-description-user-guide  +

The model can be customized to produce many different kinds of output but, typically, the output consists of (i) h, a final hillslope profile; (ii) h_diffs, a vector which summarizes how the profile changed over the duration of the simulation; and (iii) a vector expressing the fluxes of particles through a site along the hillslope. However, the same code can be used to produce a video of the hillslope evolution, a vector containing the absolute difference between the hillslope profile and a reference profile, and many other observables of interest.  +

The model can output any variables used for the water balance and transport calculations. The most frequently requested ones are: potential and actual evapotranspiration, soil moisture, groundwater storage, river discharge, irrigational water uptake.  +

The model generates several georeferenced tiff files upon completion. These geotiff files can be viewed using any GIS software. Each file is a 2D map of a modeled flow property such as thickness, velocity etc. Additionally, multiband geotiff files containing similar 2D maps at multiple user-defined time intervals during the simulation. Depth – Map of the final 2D flow thickness (in meters). Depthbin – Binary map where cells with thickness > user-defined threshold thickness have a value of 1 and the rest of the cells have a value of 0. MaxDepth – Map of the maximum flow depth obtained at each cell during the entire simulation (in meters). MaxVelocity – Map of the maximum velocity obtained at each cell during the entire simulation (in m/s). MomentumX – Map of final 2D flow momentum along the X direction (in sq. m/s). MomentumY – Map of final 2D flow momentum along the Y direction (in sq. m/s). Velocity – Map of the final 2D flow velocity (in m/s). VelocityX – Map of the final 2D flow velocity along the X direction (in m/s). VelocityY – Map of the final 2D flow velocity along the Y direction (in m/s). The multiband (movie) files output by the model are DepthMovie, MomentumXMovie, MomentumYMovie, VelocityMovie, VelocityXMovie, VelocityYMovie.  +