Le mercredi 10 décembre 2025, Lauranne ALAERTS présentera l'examen en vue de l’obtention du grade académique de Docteur en Sciences (Collège de doctorat en Océanographie) sous la direction de Marilaure GREGOIRE et Emmanuel HANERT (co-tutelle avec l’Université Catholique de Louvain).
Cette épreuve consistera en la défense publique d’une dissertation intitulée :
« Multiscale hydrodynamic modelling of the Danube Delta ».
Le Jury sera composé de :
M. X. FETTWEIS (Président), Mme et MM. C. FERRARIN (Institute of marine science, Venise), O. GOURGUE (Royal Belgian Institute of Natural Sciences), M. GREGOIRE (Promotrice), E. HANERT (UCLouvain) (Promoteur), J. LAMBRECHTS (UCLouvain) (Secrétaire), L. VANDENBULCKE.
Floodplains are a key component of deltaic systems, influencing hydrodynamics, ecosystem functioning, and local socio-economic activities. Situated at the interface between the Danube River and the Black Sea, the Danube Delta forms a complex mosaic of channels, lakes, and floodplains. Despite its key role as a transition region—that filters nutrients, buffers floods, supports biodiversity, and sustains local livelihoods and economic activities—the Danube Delta remains understudied. In this thesis, we use the 2D version of the multiscale hydrodynamic model SLIM to evaluate the influence of floodplains on the hydrodynamics of the Danube Delta. We first examine the role of mesh configuration in such braided river–floodplain environments and propose hybrid curvilinear–unstructured meshes as the best compromise between accuracy and computational efficiency. We then present a first comprehensive, high-resolution, easily accessible bathymetric dataset for the three main branches of the Danube Delta, filling a key gap in available data for hydrodynamic modeling in the region. Finally, we demonstrate that including floodplains in deltaic hydrodynamic models improves hydrodynamic representation and offers alternative pathways for water flows. In the Danube Delta, we estimate that the proportion of the upstream discharge reaching the sea through routes other than the six main river mouths ranges from 10.0±4.1% (2024) to 10.8±4.8% (2021). This thesis highlights the essential role of floodplains in deltaic environments and represents an important step toward a more realistic representation of the Danube–Black Sea continuum.
La thèse est intitulée : « Structural Phase Transitions and Complex Polar Orderings in Oxide Perovskites: Insights and Control from First- and Second-Principles ».
La thèse est intitulée : « High-Resolution Mass Spectrometry imaging beyond visualization: Addressing analytical challenges through computational methods ».
La thèse est intitulée : « Improving Representation of Land-Atmosphere Interactions Using Remote Sensing and Climate Models: Insights from Model Coupling and Satellite Data Integration ».
