Sanne Muis

TL;DR: The first global reanalysis of storm surges and extreme sea levels (GTSR) based on hydrodynamic modelling is presented, showing that there is good agreement between modelled and observed sea levels, and that the performance of GTSR is similar to that of many regional hydrod dynamic models.

TL;DR: Global “hotspots” where there is projected to be a significant change in episodic flooding by the end of the century are identified and found to be mostly concentrated in north western Europe and Asia.

TL;DR: This paper presents a method that integrates recent advances in global-scale modeling of flood hazard and land change, which enables the probabilistic analysis of future trends in national-scale flood risk, and shows that spatial planning can be a very effective adaptation strategy in data-scarce countries.

TL;DR: In this article, the ability and limitations of the current models and suggest what is needed moving forward to improve the performance of global flood risk models and to identify risk hotspots in a world with increasing flood occurrence.

TL;DR: In this paper, the first assessment and mapping of the dependence between observed high sea-levels and high river discharge for deltas and estuaries around the globe was provided, and the dependence may influence the joint probability of floods exceeding both the design discharge and design sea-level.