%0 Generic
%A van Westen, Bart
%A de Vries, Sierd
%A Cohn, Nicholas
%A van IJzendoorn, Christa
%A Strypsteen, Glenn
%A Hallin, Caroline
%D 2025
%T Data and scripts underlying the publication: AeoLiS: Numerical modelling of coastal dunes and aeolian landform development for real-world applicationsc
%U 
%R 10.4121/06dd1e90-281f-4735-9b13-50582c301822.v1
%K Coastal dunes
%K Aeolian sediment transport
%K Dune vegetation
%K Dune geomorphology
%K Blowout
%K Embryo dune
%K Parabolic dune
%X <p>This dataset encompasses numerical modeling research investigating coastal dune development and evolution through process-based simulations. The research aims to enhance understanding of aeolian landform dynamics by implementing sediment transport modeling across four distinct scenarios: Moroccan barchan dunes, parabolic dunes, embryo dunes and blowout notches. Data were collected using publicly available sources including ERA5 wind reanalysis datasets and LiDAR topographic measurements, with modeling performed using the AeoLiS model. The dataset includes model configurations, simulation outputs, analysis scripts, and visualizations, providing a detailed examination of coastal dune morphodynamics through advanced computational techniques that integrate wind-driven sediment transport, vegetation dynamics, and topographic interactions.</p>
%I 4TU.ResearchData