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Anna Kroon, Matthieu de Schipper, Sierd de Vries and Stefan Aarninkhof
Sandy nourishments can provide additional sediment to the coastal system to maintain its recreational or safety function under rising sea levels. These nourishments can be implemented at sandy beach systems, but can also be used to reinforce gray coastal...
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Rob Schepper, Rafael Almar, Erwin Bergsma, Sierd de Vries, Ad Reniers, Mark Davidson and Kristen Splinter
In this paper, a new approach to model wave-driven, cross-shore shoreline change incorporating multiple timescales is introduced. As a base, we use the equilibrium shoreline prediction model ShoreFor that accounts for a single timescale only. High-resolu...
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Bart Roest, Sierd de Vries, Matthieu de Schipper and Stefan Aarninkhof
Recently, mega feeder nourishments have been proposed as a new strategy to nourish sediment-starving beaches. This strategy involves the placement of a large, concentrated sediment volume at a single location along the coast. Wind, waves and currents act...
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Wiebe de Boer, Yongjing Mao, Gerben Hagenaars, Sierd de Vries, Jill Slinger and Tiedo Vellinga
In Africa, several new seaport developments are being considered. In sedimentary environments, such port developments can have adverse impacts on the evolution of adjacent coastlines. To learn from past port engineering practice, we created a unique data...
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Nicholas Cohn, Bas M. Hoonhout, Evan B. Goldstein, Sierd De Vries, Laura J. Moore, Orencio Durán Vinent and Peter Ruggiero
Coastal landscape change represents aggregated sediment transport gradients from spatially and temporally variable marine and aeolian forces. Numerous tools exist that independently simulate subaqueous and subaerial coastal profile change in response to ...
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