Articles | Volume 20, issue 8
https://doi.org/10.5194/hess-20-3149-2016
https://doi.org/10.5194/hess-20-3149-2016
Research article
 | 
04 Aug 2016
Research article |  | 04 Aug 2016

Fresh groundwater resources in a large sand replenishment

Sebastian Huizer, Gualbert H. P. Oude Essink, and Marc F. P. Bierkens

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Cited articles

Bakker, M. A. J., van Heteren, S., Vonhögen, L. M., van der Spek, A. J. F., and van der Valk, B.: Recent Coastal Dune Development: Effects of Sand Nourishments, J. Coast. Res., 282, 587–601, https://doi.org/10.2112/JCOASTRES-D-11-00097.1, 2012.
Beets, D. J. and van der Spek, A. J. F.: The Holocene evolution of the barrier and the back-barrier basins of Belgium and the Netherlands as a function of late Weichselian morphology, relative sea-level rise and sediment supply, Netherlands J. Geosci., 79, 3–16, https://doi.org/10.1017/S0016774600021533, 2000.
Beets, D. J., van der Valk, L., and Stive, M. J. F.: Holocene evolution of the coast of Holland, Mar. Geol., 103, 423–443, https://doi.org/10.1016/0025-3227(92)90030-L, 1992.
Buma, J. T.: Monitoring plan drainage measure Solleveld; Monitoring of groundwater and effectiveness of drainage measure, Deltares, Report No. 1202884-001-BGS-0006, Utrecht, the Netherlands, 2013 (in Dutch).
CBS, PBL and Wageningen UR: Yearly volume of precipitation in the Netherlands, (indicator 0508, version 05, 23 March 2012), www.compendiumvoordeleefomgeving.nl (last access: 13 May 2015), CBS, Den Haag, Planbur, voor Leefomgeving, Den Haag/Bilthoven en Wageningen UR, Wageningen, available at: http://www.compendiumvoordeleefomgeving.nl/indicatoren/nl0508-Neerslagsom-in-Nederland.html?i=9-54 (last access: 13 May 2015), 2012 (in Dutch).
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Short summary
The anticipation of sea-level rise has led to an innovative project called the Sand Engine, where a large volume of sand was placed on the Dutch coast. The intention is that the sand is redistributed by wind, current and tide, reinforcing coastal defence structures. Model simulations show that this large sand replenishment can result in a substantial growth of fresh groundwater resources. Thus, sand replenishments could combine coastal protection with an increase of fresh groundwater resources.