%0 Generic
%A Saccon, Eleonora
%A Hendrickx, Gijs
%A Hulscher, S.J.M.H. (Suzanne)
%A Bouma, Tjeerd
%A van de Koppel, Johan
%D 2024
%T Dataset underlying the study "Wetland topography drives salinity resilience in freshwater tidal ecosystems"
%U 
%R 10.4121/93d8d223-e2ab-486e-a85b-da14789532d4.v1
%K Delft3D Flexible Mesh
%K wetland
%K salt intrusion
%X <p>The dataset contains the input files of twenty (20) simulations using Delft3D Flexible Mesh (DFM). The simulations represent wetlands with different morphologies:</p><p>00.	flat/reference</p><p>&nbsp;01.	de-embanked</p><p>&nbsp;02.	willow plantation (high)</p><p>&nbsp;03.	willow plantation (low)</p><p>&nbsp;04.	marsh</p><p>This wetland morphologies have been exposed to four types of boundary conditions:</p><p>&nbsp;D. representative drought conditions: Mean water level of 0 m; tidal range of 1.50 m; background salinity of 0 psu; event duration of 30 days; change in water level during event of -0.10 m; change in salinity during event of +6 psu.</p><p>&nbsp;DE. representative drought conditions (excl. water level change): Same as [drought] except no change in water level during event.</p><p>&nbsp;F. representative flood conditions: Mean water level of 0 m; tidal range of 1.50 m; background salinity of&nbsp;0 psu; event duration of one (1) day; change in water level during event of +1.41 m; change in salinity during event of +25 psu.</p><p>&nbsp;FE. representative flood conditions (excl. water level change): Same as [flood] except no change in water level during event.</p><p>Model simulations are labelled as &lt;boundary-condition&gt;&lt;wetland-morphology&gt;,&nbsp;e.g., "D00" refers to representative drought conditions with the flat/reference wetland morphology.</p>
%I 4TU.ResearchData