Dyke failures in the Province of Groningen (Netherlands) associated with the 1717 Christmas flood: a reconstruction based on geoscientific field data and numerical simulations

Abstract: The 1717 Christmas flood is one of the most catastrophic storm surges the Frisian coast (Netherlands and Germany) has ever experienced. With more than 13,700 casualties it is the last severe storm surge with a death toll of this order. At the same time, little is known about the hydrodynamic conditions and the morphological effects associated with this storm surge. In this study, 41 potential dyke failures in the Province of Groningen (Netherlands) associated with the 1717 Christmas flood were systematicall… Show more

“…For the spatial analysis, a palaeo-topography was developed; this helps to reconstruct the influence of flooding on settlement patterns. Röbke et al (2020) (Dyke failures in the Province of Groningen (Netherlands) associated with the 1717 Christmas flood: a reconstruction based on geoscientific field data and numerical simulations) describe the 1717 Christmas flood, a storm surge with catastrophic consequences, applying a numerical modelling approach. Such surges were regular occurrences after dikes were built, beginning in the eleventh century AD.…”

Drowned palaeo-landscapes: archaeological and geoscientific research at the southern North Sea coast

“…For the spatial analysis, a palaeo-topography was developed; this helps to reconstruct the influence of flooding on settlement patterns. Röbke et al (2020) (Dyke failures in the Province of Groningen (Netherlands) associated with the 1717 Christmas flood: a reconstruction based on geoscientific field data and numerical simulations) describe the 1717 Christmas flood, a storm surge with catastrophic consequences, applying a numerical modelling approach. Such surges were regular occurrences after dikes were built, beginning in the eleventh century AD.…”

Drowned palaeo-landscapes: archaeological and geoscientific research at the southern North Sea coast

“…An additional feature of this module is the possibility to include the simulation of sediment transport and morphodynamics associated with the tsunami inundation, cf. [14,50], which makes it a broadly applicable tool for the numerical simulation of tsunamis.…”

Rapid Assessment of Tsunami Offshore Propagation and Inundation with D-FLOW Flexible Mesh and SFINCS for the 2011 Tōhoku Tsunami in Japan