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From CSDMS
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:Cyclopath + (Any outcrop data showing (or purporting to show) cyclical platform interior strata)
- Model:Kirwan marsh model + (Biomass productivity and marsh accretion rates from 1984-present, described in Morris et al. (2002).)
- Model:GNE + (Calibration data consist of compilations of river N, P, Si and C annual yields by form.)
- Model:SINUOUS + (Calibration must be based on external hydraulic and channel morphology data. Optimal parameters can be determined by test simulations.)
- Model:Cliffs + (Cliffs is benchmarked as described in: E. … Cliffs is benchmarked as described in: E. Tolkova. Land-Water Boundary Treatment for a Tsunami Model With Dimensional Splitting</br>Pure and Applied Geophysics, Vol. 171, Issue 9 (2014), pp. 2289-2314</br></br>Examples of modeling with Cliffs (complete set-ups included) are described in Cliffs User Manual at http://arxiv.org/abs/1410.0753r Manual at http://arxiv.org/abs/1410.0753)
- Model:Area-Slope Equation Calculator + (Cohen, S., G. Willgoose, and G. Hancock (2008), A methodology for calculating the spatial distribution of the area-slope equation and the hypsometric integral within a catchment, J. Geophys. Res., 113, F03027, doi:10.1029/2007JF000820.)
- Model:WEPP + (Data available from 1986-88 field experimentation (in compendium) using rainfall simulation. Also, validation data sets are available from USLE database.)
- Model:MARSSIM V4 + (Default parameter and input files will produce steady state landscape with stream power erosion and mass wasting)
- Model:NearCoM + (Duck 94 data set and laboratory experiments.)
- Model:Plume + (Eel River (California), Knight and Bute Inlet (British Columbia))
- Model:Physprop + (EuroSTRATAFORM Po River margin)
- Model:KnickZone-Picker + (Example and validation datasets are available on the github page.)
- Model:TwoPhaseEulerSedFoam + (Experiment data for steady channel flow ca … Experiment data for steady channel flow can be found in:</br>Sumer, B. M., Kozakiewicz, A., Fredsoe, J., Deigaard, R., 1996. Velocity and concentration profiles in sheet-flow layer of movable bed. Journal of Hydraulic Engineering, (1996) 549-558.</br></br>Experiment for oscillatory flow can be found in:</br>O'Donoghue, T., Wright, S., 2004. Concentrations in oscillatory sheet flow for well sorted and graded sands. Coastal Engineering 50 (2004) 117-138.ds. Coastal Engineering 50 (2004) 117-138.)
- Model:FVCOM + (FVCOM was originally developed for the est … FVCOM was originally developed for the estuarine flooding/drying process in estuaries and the tidal-, buoyancy- and wind-driven circulation in the coastal region featured with complex irregular geometry and steep bottom topography. This model has been upgraded to the spherical coordinate system for basin and global applications. A non-hydrostatic version of FVCOM has been coded and is being tested.</br>See also website for model validations.d. See also website for model validations.)
- Model:GOLEM + (Few or none, unfortunately)
- Model:QDSSM + (Have successfully tested the model on the Colorado river shelf system, and along analogue models.)
- Model:WACCM-EE + (Haze microphysics can be checked against Bardeen 2008 for initial accuracy.)
- Model:ILAMB + (ILAMB has integrated testing of overall scores on a coarsened subset of observational data which runs via Azure pipelines.)
- Model:CEM + (In one application, the rate of change in … In one application, the rate of change in the model has been calibrated to a state data set averaging shoreline change over 50 years (from the North Carolina Department of Transportation; see Slott et al., 2007). Numerous other shoreline change data sets are available, based on surveys of various sorts, aerial photography, and recently LIDAR (e.g. Lazarus and Murray, 2007).tly LIDAR (e.g. Lazarus and Murray, 2007).)
- Model:SEDPAK + (Included in distribution)
- Model:EstuarineMorphologyEstimator + (Included with the ZIP file)
- Model:GRLP + (Laboratory experiments; long-term surveyed rivers; long profiles of transport-limited rivers)
- Model:CSt ASMITA + (Like most morphodynamical models the user is to supply long-term coastal change data from measured data.)
- Model:HydroTrend + (Long term sediment routine: *Syvitksi & Milliman, Journal of Geology, 115, 2007. Short term sediment routine: *Morehead et al., Global and Planetary Change, 39, 2003.)
- Model:Auto marsh + (Model description and calibration can be f … Model description and calibration can be found in:</br></br>Leonardi, N., and S. Fagherazzi (2014), How waves shape salt marshes, Geology , doi:10.1130/G35751.1.</br></br>Leonardi, N., and S. Fagherazzi (2015), Local variability in erosional resistance affects large scale morphodynamic response of salt marshes to wind waves, Geophysical Research Letters, 2015GL064730, doi:10.1002/2015GL064730.s, 2015GL064730, doi:10.1002/2015GL064730.)
- Model:ThawLake1D + (Model is designed and calibrated for Alaska Coastal Plain. We calibrated the model against temperature data in the subsurface from the Drew point, AK, USGS meteorological station.)
- Model:CAESAR Lisflood + (Module tested here: https://www.geosci-model-dev.net/11/4873/2018/)
- Model:Frost Model + (N/A)
- Model:HexWatershed + (National Hydrography Dataset (NHD) flowline datasets were used to evaluated the model.)
- Model:Quad + (No calibration data sets. We validate the model against available analytical solutions and use it to analyze the system behavior under a general base-level fall and base-level rise. See Lorenzo-Trueba et al. 2012.)
- Model:GENESIS + (No specific calibration data sets available. GENESIS has enjoyed many practical applications within the engineering and scientific community, results routinely published in proceedings of coastal conferences.)
- Model:Zscape + (None)
- Model:GPM + (None available)
- Model:AquaTellUs + (Not readily available; theoretical experiments are available as examples.)
- Model:OrderID + (One test facies succession CSDMStestSection.txt and one test facies code, colour code and name file CSDMStestSectionLithoCol.txt)
- Model:OptimalCycleID + (One test facies succession CSDMStestSection.txt and one test facies code, colour code and name file CSDMStestSectionLithoCol.txt)
- Model:ParFlow + (ParFlow contains a directory of test cases that may be automated as a check of the code.)