Model:D'Alpaos model

D'Alpaos model

Model type:	Single model for the coastal domain.
Description:	Long-term ecomorphodynamic model of the initiation and development of tidal networks and of the adjacent marsh platform, accounting for vegetation influence and relative sea level rise effects

Supported platforms:	Windows
Programming language:	Fortran77, Fortran90
Model development started at:	2003 and is still in development
To what degree will the model become available:	Executable will be available
Current license type:	GPL v2
Memory requirements:	--
Typical run time:	hours-days

Input parameters:	Sediment availability, vegetation characteristics, tidal forcing, rate of relative sea level rise, tidal network configuration and marsh topography if an actual domain is considered.
Input format:	ASCII
Output parameters:	Channel network configuration and morphology, marsh platform elevations, erosion and accretion rates, relevant geomorphological features
Output format:	ASCII
Post-processing software (if needed):	no
Visualization software (if needed):	Yes, Matlab

Processes represented by model:	The model describes the tidal-network initiation and development, and the vertical accretion of the adjacent marsh platform. Tidal network development is driven by the exceedance of a local hydrodynamic bottom shear stress, controlled by water surface gradients. Marsh vertical growth is modeled by using a sediment balance equation acconting for erosion and deposition terms. The deposition terms account for sediment settling, trapping and organic production.
Key physical parameters & equations:	--
Length scale & resolution constraints:	--
Time scale & resolution constraints:	--
Numerical limitations and issues :	--

Available calibration data sets:	--
Available test data sets:	--
Ideal data for testing:	--

Currently or plans for collaborating with:	Yes

Key papers of the model:	D'Alpaos, A., S. Lanzoni, M. Marani, S. Fagherazzi, and A. Rinaldo (2005), Tidal network ontogeny: channel initiation and early development, Journal of Geophysical Research--Earth Surface, 110, F02001, doi:10.1029/2004JF000182. D'Alpaos, A., S. Lanzoni, S. M. Mudd, and S. Fagherazzi (2006), Modeling the influence of hydroperiod and vegetation on the cross-sectional formation of tidal channels, Estuarine Coastal Shelf Science, 69, 311-324, doi:10.1016/j.ecss.2006.05.02. D'Alpaos, A., S. Lanzoni, M. Marani, and A. Rinaldo (2007), Landscape evolution in tidal embayments: modelling the interplay of erosion, sedimentation, and vegetation dynamics, Journal of Geophysical Research- Earth Surface, 112, F01008, doi:10.1029/2006JF000537. D'Alpaos, A., S. Lanzoni, M. Marani, A. Bonometto, G. Cecconi, and A. Rinaldo (2007), Spontaneous tidal network formation within a constructed salt marsh: observations and morphodynamic modelling, Geomorphology, 91, 186–197, doi: 10.1016/j.geomorph.2007.04.013
Is there a manual available:	no
Model website if any:	ftp://ftp.geosc.psu.edu/sling/SimSedBasinsBook/

Comments:	--