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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:TopoFlow-Diversions + (Available test data sets: * Treynor water … Available test data sets:* Treynor watershed, in the Nishnabotna River basin, Iowa, USA.* (Two large rainfall events.)* Small basin in Kentucky.* Inclined plane for testing.* Arctic watershed data from Larry Hinzman (UAF).* See /data/progs/topoflow/3.0/data on CSDMS cluster./progs/topoflow/3.0/data on CSDMS cluster.)
Model:TopoFlow-Channels-Diffusive Wave + (Available test data sets: *Treynor watersh … Available test data sets:*Treynor watershed, in the Nishnabotna River basin, Iowa, USA.* (Two large rainfall events.)*Small basin in Kentucky.*Inclined plane for testing.*Arctic watershed data from Larry Hinzman (UAF).*See /data/progs/topoflow/3.0/data on CSDMS cluster./progs/topoflow/3.0/data on CSDMS cluster.)
Model:TopoFlow-Infiltration-Green-Ampt + (Available test data sets: *Treynor watersh … Available test data sets:*Treynor watershed, in the Nishnabotna River basin, Iowa, USA.* (Two large rainfall events.)*Small basin in Kentucky.*Inclined plane for testing.*Arctic watershed data from Larry Hinzman (UAF).*See /data/progs/topoflow/3.0/data on CSDMS cluster./progs/topoflow/3.0/data on CSDMS cluster.)
Model:TopoFlow-Infiltration-Smith-Parlange + (Available test data sets: *Treynor watersh … Available test data sets:*Treynor watershed, in the Nishnabotna River basin, Iowa, USA.* (Two large rainfall events.)*Small basin in Kentucky.*Inclined plane for testing.*Arctic watershed data from Larry Hinzman (UAF).*See /data/progs/topoflow/3.0/data on CSDMS cluster./progs/topoflow/3.0/data on CSDMS cluster.)
Model:TopoFlow-Meteorology + (Available test data sets: *Treynor watersh … Available test data sets:*Treynor watershed, in the Nishnabotna River basin, Iowa, USA.* (Two large rainfall events.)*Small basin in Kentucky.*Inclined plane for testing.*Arctic watershed data from Larry Hinzman (UAF).*See /data/progs/topoflow/3.0/data on CSDMS cluster./progs/topoflow/3.0/data on CSDMS cluster.)
Model:TopoFlow-Snowmelt-Degree-Day + (Available test data sets: *Treynor watersh … Available test data sets:*Treynor watershed, in the Nishnabotna River basin, Iowa, USA.* (Two large rainfall events.)*Small basin in Kentucky.*Inclined plane for testing.*Arctic watershed data from Larry Hinzman (UAF).*See /data/progs/topoflow/3.0/data on CSDMS cluster./progs/topoflow/3.0/data on CSDMS cluster.)
Model:TopoFlow-Snowmelt-Energy Balance + (Available test data sets: *Treynor watersh … Available test data sets:*Treynor watershed, in the Nishnabotna River basin, Iowa, USA.* (Two large rainfall events.)*Small basin in Kentucky.*Inclined plane for testing.*Arctic watershed data from Larry Hinzman (UAF).*See /data/progs/topoflow/3.0/data on CSDMS cluster./progs/topoflow/3.0/data on CSDMS cluster.)
Model:TopoFlow-Saturated Zone-Darcy Layers + (Available test data sets: *Treynor watersh … Available test data sets:*Treynor watershed, in the Nishnabotna River basin, Iowa, USA.* (Two large rainfall events.)*Small basin in Kentucky.*Inclined plane for testing.*Arctic watershed data from Larry Hinzman (UAF).*See /data/progs/topoflow/3.0/data on CSDMS cluster./progs/topoflow/3.0/data on CSDMS cluster.)
Model:TopoFlow-Evaporation-Read File + (Available test data sets: *Treynor watersh … Available test data sets:*Treynor watershed, in the Nishnabotna River basin, Iowa, USA.* (Two large rainfall events.)*Small basin in Kentucky.*Inclined plane for testing.*Arctic watershed data from Larry Hinzman (UAF).*See /data/progs/topoflow/3.0/data on CSDMS cluster./progs/topoflow/3.0/data on CSDMS cluster.)
Model:TopoFlow-Evaporation-Energy Balance + (Available test data sets: *Treynor watersh … Available test data sets:*Treynor watershed, in the Nishnabotna River basin, Iowa, USA.* (Two large rainfall events.)*Small basin in Kentucky.*Inclined plane for testing.*Arctic watershed data from Larry Hinzman (UAF).*See /data/progs/topoflow/3.0/data on CSDMS cluster./progs/topoflow/3.0/data on CSDMS cluster.)
Model:TopoFlow-Evaporation-Priestley Taylor + (Available test data sets: *Treynor watersh … Available test data sets:*Treynor watershed, in the Nishnabotna River basin, Iowa, USA.* (Two large rainfall events.)*Small basin in Kentucky.*Inclined plane for testing.*Arctic watershed data from Larry Hinzman (UAF).*See /data/progs/topoflow/3.0/data on CSDMS cluster./progs/topoflow/3.0/data on CSDMS cluster.)
Model:TopoFlow-Infiltration-Richards 1D + (Available test data sets: *Treynor watersh … Available test data sets:*Treynor watershed, in the Nishnabotna River basin, Iowa, USA.* (Two large rainfall events.)*Small basin in Kentucky.*Inclined plane for testing.*Arctic watershed data from Larry Hinzman (UAF).*See /data/progs/topoflow/3.0/data on CSDMS cluster./progs/topoflow/3.0/data on CSDMS cluster.)
Model:TopoFlow + (Available test datat sets: *Treynor waters … Available test datat sets:*Treynor watershed, in the Nishnabotna River basin, Iowa, USA. (Two large rainfall events.)*Small basin in Kentucky.*Inclined plane for testing.*Arctic watershed data from Larry Hinzman (UAF).*See /data/progs/topoflow/3.0/data on CSDMS cluster./progs/topoflow/3.0/data on CSDMS cluster.)
Model:CarboCAT + (Burgess (2008))
Model:DeltaSIM + (Caspian sea experiences extremely rapid sea level fluctuation, making it a great test data set for coastline shifts.)
Model:GLUDM + (Cropland area for ...)
Model:Hilltop and hillslope morphology extraction + (Db_dem.zip)
Model:TOPMODEL + (Example of TOPMODEL simulation)
Model:Sun fan-delta model + (Example outputs and associated wrapper scripts are available through the University of Virginia Dataverse at https://dx.doi.org/10.18130/V3/E0EGOC)
Model:MARSSIM + (Example runs for most types of simulation scenarios)
Model:WBMsed + (Extensive input dataset is available on the CSDMS HPCC (beach) at '/scratch/ccny/RGISarchive' and '/scratch/saco2635/RGISarchiveCSDMS'.)
Model:RASCAL + (Flow velocities measured under current con … Flow velocities measured under current conditions in the Everglades in ridge (high-flow-resistance) and slough (low-flow-resistance) vegetation communities. This is very limited validation, as it only tests simulated velocities at the low end of the range of velocities the model is capable of simulating. Results are shown in Larsen and Harvey, Geomorphology, 2010, Fig. 4.n and Harvey, Geomorphology, 2010, Fig. 4.)
Model:Symphonie + (For example : Test of the non-hydrostatic version with water tank experiments.)

Model:SimClast + (For now only a basic synthetic surface.)

Model:GNE + (Global (GEMS-GLORI), regional, national and literature compilations. A subset used for validation.)
Model:1D Hillslope MCMC + (Hillslope morphology data from the Dragon's Back Pressure Ridge is included in packaged code.)
Model:WACCM-EE + (I have numerous data sets produced by an 8 processor Mac and a local unix cluster to confirm the model is initialized correctly.)
Model:BITM + (In order to verify the millennial-scale ev … In order to verify the millennial-scale evolution of a barrier island, it is necessary to know the sea level curve, the rate of lagoonal deposition, the rate of overwash and the initial shelf profile. The BIT Model has been applied to the shelf profile in front of Sand Key, Florida.elf profile in front of Sand Key, Florida.)
Model:Hilltop flow routing + (Input data used in the preparation of the … Input data used in the preparation of the associated manuscript is all available from www.opentopography.org along with all processing and visualization code at https://github.com/sgrieve/LH_Paper_Plotting so users can compare their results with those contained within the manuscript.ith those contained within the manuscript.)
Model:1DBreachingTurbidityCurrent + (MS thesis)
Model:WOFOST + (Model test data are available through https://github.com/ajwdewit/pcse and described in https://doi.org/10.1016/j.agwat.2019.105746)
Model:Shoreline + (Model was only used for modeling coastline … Model was only used for modeling coastline change in the vicinity of Barrow, Alaska. Hourly wind data from a met station at the Barrow Airport was used to drive the model. High-resolution coastline data digitized from aerial photos by Manley et al. (2006) was used for initial and final coastlines. The latter was used for validation purposes. High-resolution DEMs were also used.oses. High-resolution DEMs were also used.)
Model:River Erosion Model + (Modeling testing performed on data from the lower Colorado River and North Fork Toutle River. Model input data available here: https://github.com/rodlammers/REM)
Model:HEBEM + (N/A)
Model:Frost Model + (N/A)
Model:ISSM + (Nightly runs are carried out on every SVN repository commit.)
Model:MARSSIM V4 + (None at present - forthcoming)
Model:GPM + (None available)
Model:WAVEWATCH III ^TM + (ONR test bed and others.)
Model:ParFlow + (ParFlow contains a directory of test cases that may be automated as a check of the code.)
Model:Lake-Permafrost with Subsidence + (Permafrost model can be tested with ground temperature time series at several depths. Lake model can be tested with known ice depths (though snow, not accounted for in model, can affect depth by several 10s of cm).)
Model:GEOtop + (Please look at the GEOtop website: http://www.slideshare.net/GEOFRAMEcafe/geotop-2008?type=powerpoint)
Model:CrevasseFlow + (Q(m^3/s): daily water discharge series, 365 by 1 matrix Qs(kg/s): daily sediment flux series, 365 by 1 matrix The trigger flood event is set at the 232th day)
Model:GEOMBEST++Seagrass + (Sample input and output files are included with the code.)
Model:GEOMBEST-Plus + (Sample input files used to create plots shown in manual.)
Model:SBEACH + (See SBEACH Report 4 (http://chl.erdc.usace.army.mil/chl.aspx?p=s&a=Software;31 ))
Model:CEM + (See answer above; many shoreline data sets … See answer above; many shoreline data sets exist. Comparing model results to detailed records of coastline change will become more appropriate as the model is used to investigate shoreline change in more detail in a particular location and time period.However, to date the model has been used chiefly for relatively abstract explorations of how coastline evolution works: how emergent coastline structures such as capes, spits, and alongshore sand waves form and interact; how heterogeneity in underlying geology affects coastline evolution; how scenarios of changing storm and wave climates would affect coastline change; and how human manipulations alter large-scale coastline change). Ashton and Murray (2006b) compared robust model predictions concerning the way local wave climates vary along a coastline with emergent structures (capes and flying spits) to hindcast wave climates along actual shorelines. As opposed to testing whether model parameters can be adjusted to reproduce observations in detail, testing a robust prediction like this, which does not depend on the formal details of the model ingredients, can falsify the hypothesis that the interactions in the model capture the basic aspects of the interactions that are important in the actual system (see Murray, 2003; 2007).he actual system (see Murray, 2003; 2007).)
Model:LOADEST + (See applications described in software documentation http://water.usgs.gov/software/loadest/doc/)
Model:EstuarineMorphologyEstimator + (See article: https://doi.org/10.3390/rs10121915)