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A list of all pages that have property "Describe ideal data" with value "CRN data both hillslope and fluvial.". Since there have been only a few results, also nearby values are displayed.

Showing below up to 25 results starting with #1.

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List of results

    • Model:CarboCAT  + (Carbonate lithofacies thickness distributions)
    • Model:WACCM-EE  + (Cassini data describing Titan photochemical haze. Laboratory work constraining haze properties.)
    • Model:SINUOUS  + (Channel migration data for real meandering rivers. Topography of floodplains of actual migrating rivers.)
    • Model:SimClast  + (ClastSim is ideally used for field tests, a preferably well-studied area with some knowledge of the sediment budget is preferred. Most continental to shallow marine clastic coastal systems without too much tidal influence can be used.)
    • Model:CellularFanDelta  + (Coarse-grained delta experiments without too valley widening, e.g. many XES experiments conducted at the Saint Anthony Falls Laboratory by Paola et al.)
    • Model:MarshMorpho2D  + (Examples are included in the submission)
    • Model:AR2-sinuosity  + (Examples of model output are available in the following data repository: Limaye, A. B., 2021, Sinuosity data for numerically modeled and natural channels, University of Virginia Dataverse, https://doi.org/10.18130/V3/TRTTIS.)
    • Model:WAVEWATCH III ^TM  + (Field data should be used for testing. Lab data has incosistent scaling between gravity and capilary waves.)
    • Model:Caesar  + (Flow and sediment discharge data, images of topographic change)
    • Model:WASH123D  + (For field scale: # Flooding of Dade CountFor field scale:</br></br># Flooding of Dade County watershed in South Florida,</br># Flooding of South Fork Broad River Watershed in South Carolina due to Hurricane Earl,</br># Redistru=ibution of waters in a wetland watershed along Biscayne Bay Coast Wetlands. </br></br>For Laboraty Test:</br></br># Circular Dam Break problems,</br># two dimensional non-symmetrical dam break problem, and</br># Constructed storm water treatment area. # Constructed storm water treatment area.)
    • Model:Shoreline  + (High-resolution coastal change data, for example, digitized from aerial photography or measured with GPS.)
    • Model:WEPP  + (Ideal data would consist of breakpoint (recording raingage) rainfall data, observed temperatures, radiation, wind, plant cover, residue cover, storm runoff, storm sediment loss, etc.)
    • Model:Gospl  + (It can be used to test different hypothesis related to Earth past evolution and to characterise the role of several drivers such as precipitation, dynamic topography, sea-level on Earth landscape evolution and sedimentary basins formation.)
    • Model:BITM  + (It would be interesting to have grainsize data in addition to the other data.)
    • Model:DeltaSIM  + (Known boundary conditions, discharge, and sediment load as well as basin fluctuations. Dated stratigraphic profiles in deltas that are mostly fluvial dominated, ie lake deltas.)
    • Model:GPM  + (Laboratory and field data of free-surface flow and clastic transport rates.)
    • Model:Lake-Permafrost with Subsidence  + (Lake temperature time series, known lake depth, underlying permafrost time series. Surface temperature time series as input (not air temperature).)
    • Model:River Erosion Model  + (Long term (at least 10 years) of data on sLong term (at least 10 years) of data on stream channel evolution. This would include changes in both channel width and bed elevation throughout a small channel network. Also have a continuous time series of discharge and physical characteristics of the stream channels (bed grain size distribution, bank soil erodibility, etc.).istribution, bank soil erodibility, etc.).)
    • Model:Kirwan marsh model  + (Long term, high resolution (annual to couple years) datasets of marsh accretion. Similar time series of channel characteristics would be useful.)
    • Model:RASCAL  + (More aspects of the model will be tested iMore aspects of the model will be tested in the Everglades as part of the upcoming Decompartmentalization Physical Model, a series of experimental flow releases that will elevate water-surface slope and flow velocities and likely entrain sediment. Coinciding measurements of flow velocities and sediment transport characteristics will be made within different vegetation communities as part of the experiment.ion communities as part of the experiment.)
    • Model:HEBEM  + (N/A)
    • Model:Frost Model  + (N/A)
    • Model:Equilibrium Calculator  + (N/A)
    • Model:MARSSIM V4  + (None)
    Retrieved from "https://csdms.colorado.edu/wiki/Special:SearchByProperty/:Describe-20ideal-20data/CRN-20data-20both-20hillslope-20and-20fluvial."