Model:Sedflux

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Sedflux

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Summary Contact Technical specs In/Output Process Testing Other Component info Also known as Model type Modular Model part of larger framework Note on status model Date note status model Incorporated models or components: Spatial dimensions 2D, 3D Spatial extent Model domain One-line model description Basin filling stratigraphic model Extended model description Sedflux-2.0 is the newest version of the Sedflux basin-filling model. Sedflux-2.0 provides a framework within which individual process-response models of disparate time and space resolutions communicate with one another to deliver multi grain sized sediment load across a continental margin. Keywords: sediment transport, geodynamics, stratigraphy, Name Eric Hutton Type of contact Model developer Institute / Organization CSDMS, INSTAAR, University of Colorado Postal address 1 1560 30th street Postal address 2 Town / City Boulder Postal code 80305 State Colorado Country USA"USA" is not in the list (Afghanistan, Albania, Algeria, Andorra, Angola, Antigua and Barbuda, Argentina, Armenia, Australia, Austria, ...) of allowed values for the "Country" property. Email address huttone@colorado.edu Phone Fax Supported platforms Unix, Linux, Mac OS Other platform Programming language C Other program language Code optimized Multiple processors implemented Nr of distributed processors Nr of shared processors Start year development 1997 Does model development still take place? Yes If above answer is no, provide end year model development Code development status When did you indicate the 'code development status'? Model availability As code Source code availability (Or provide future intension) Through web repository Source web address https://github.com/mcflugen/sedflux Source csdms web address Program license type GPL v2 Program license type other Memory requirements 2GB Typical run time minutes to days Describe input parameters River mouth characteristics (velocity, width, depth, concentration) averaged daily, or longer. Initial bathymetry. Input sediment distribution and properties of each grain type. Optionally, any of: tectonics, sea level, wave climate, and currents Input format ASCII Other input format Describe output parameters Sediment properties that include (but are not limited to) bulk density, grain size, porosity, and permeability. These are averaged over are user-specified vertical resolution (typically mm to cm). Sea-floor properties that include slope, water depth, and sand fraction. Output format Binary Other output format Pre-processing software needed? No Describe pre-processing software Post-processing software needed? No Describe post-processing software Visualization software needed? Yes If above answer is yes Matlab Other visualization software Describe processes represented by the model surface plumes, hyperpycnal plumes, sediment slope failure that results in turbidity currents or debris flows, subsidence, compaction, sediment remobilization due to waves and currents, river avulsion Describe key physical parameters and equations Too numerous to list. Describe length scale and resolution constraints Vertically: mm to cm; Horizontally: 10s of m to 1000 of m Describe time scale and resolution constraints Days or greater. Component processes can have much higher resolutions for numerical stability. Describe any numerical limitations and issues -- Describe available calibration data sets Upload calibration data sets if available: Describe available test data sets Upload test data sets if available: Describe ideal data for testing Do you have current or future plans for collaborating with other researchers? None Is there a manual available? Yes Upload manual if available: Model website if any https://github.com/mcflugen/sedflux Model forum / discussion board Comments No This part will be filled out by CSDMS staff OpenMI compliant No but possible BMI compliant Yes WMT component Yes PyMT component Is this a data component DOI model 10.1594/IEDA/100161 For model version 2.1 Year version submitted 2011 Link to file Can be coupled with:

Model info Authors Eric Hutton Source code Go to external source code site DOI Download Sedflux [ version: 2.1] Doi: 10.1594/IEDA/100161 Model citations Nr. of publications: 25 Total citations: 822 h-index: 15 m-quotient: 0.62 QR-code Link to this page Other models by author Avulsion Bing Bio Diffusion Flexure Inflow Plume Sedflux Subside WAVEWATCH III Data Component

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sedflux-2.0

Sedflux-2.0 is the newest version of the Sedflux basin-filling model. Sedflux-2.0 provides a framework within which individual process-response models of disparate time and space resolutions communicate with one another to deliver multi grain sized sediment load across a continental margin. Version 2.0 introduces a series of new process models, and the ability to operate in one of two modes to track the evolution of stratigraphy in either two or three dimensions. Additions to the 2D-mode include the addition of models that simulate

1. erosion and deposition of sediment along a riverbed,
2. cross-shore transport due to ocean waves, and
3. turbidity currents and hyperpycnal flows.

New processes in the 3D-mode include

1. river channel avulsion,
2. two-dimensional diffusion due to ocean storms, and
3. two-dimensional flexure due to sediment loading.

The spatial resolution of the architecture is typically 1-25 cm in the vertical, and 10-100 m in the horizontal when operating in 2D-mode. In 3D-mode, the ....

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Related theory and data

Paola, C., J. Mullin, C. Ellis, D. C. Mohrig, J. B. Swenson, G. Parker, T. Hickson, P. L. Heller, L. Pratson, JPM Syvitski, B. Sheets, N. Strong, 2001. Experimental Stratigraphy, GSA Today, 11(7): 4-9.

Syvitski, JPM, Pratson, L.F., Wiberg, P.L., Steckler, M.S., Garcia, M.H., Geyer, W.R., Harris, C.K., Hutton, E.W.H., Imran, J., Lee, H.J., Morehead, M.D., and Parker, G., 2007. Prediction of margin stratigraphy. In: C.A. Nittrouer, J.A. Austin, M.E. Field, J.H. Kravitz, JPM Syvitski, and P.L. Wiberg (Eds.) Continental-Margin Sedimentation: From Sediment Transport to Sequence Stratigraphy. IAS Spec. Publ. No. 37: 459-530

Kraft, B.J., Overeem, I., Holland, C.W., Pratson, L.F., Syvitski, JPM, and Mayer, L.M., 2006, Stratigraphic model predictions of geoacoustic properties. IEEE Journal of Ocean Engineering 31(2): 266-283.

Jouet, G, Hutton, E.W.H., Syvitski, JPM, Rabineau, M., Berné, S. 2008, Modeling the isostatic effects of sealevel fluctuations on the Gulf of Lions. Computers & Geosciences 34: 1338-1357.

O’Grady, D.B., and Syvitski, JPM, 2001. Predicting profile geometry of continental slopes with a multiprocess sedimentation model. In: D.F. Merriam and J.C. Davis (eds.) Geological Modeling and Simulation: Sedimentary Systems. Kluwer Academic/Plenum Publishers, New York, p. 99-117.

Overeem, I., Syvitski, JPM, Hutton, E.W.H., 2005, Three-dimensional numerical modeling of deltas. In: L. Giosan and JPM Bhattacharya (Eds.), River Deltas — Concepts, Models, and Examples. SEPM Special Publication No. 83, pp. 13-30.

Overeem, I., Syvitski, JPM, 2010, Experimental exploration of the stratigraphy of fjords fed by glacio-fluvial systems, Howe, J. A., Austin, W. E. N., Forwick, M. & Paetzel, M. (eds) Fjord Systems and Archives. Geological Society, London, Special Publications, 344, 127–144.