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Aggregate resources in the Netherlands

Published online by Cambridge University Press:  01 April 2016

M.J. van der Meulen*
Affiliation:
TNO Built Environment and Geosciences - Geological Survey of the Netherlands, P.O. Box 80015, 3508 TA Utrecht, the Netherlands
S.F. van Gessel
Affiliation:
TNO Built Environment and Geosciences - Geological Survey of the Netherlands, P.O. Box 80015, 3508 TA Utrecht, the Netherlands
J.G. Veldkamp
Affiliation:
TNO Built Environment and Geosciences - Geological Survey of the Netherlands, P.O. Box 80015, 3508 TA Utrecht, the Netherlands
*
*Corresponding author. Email:[email protected]

Abstract

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We have built a 3D lithological model of the Netherlands, for the purpose of mapping on-land aggregate resources down to 50 m below the surface. The model consists of voxel cells (1000 ⋅ 1000 ⋅ 1 m), with lithological composition and aggregate content estimates as primary attributes. These attributes were derived from ∼350,000 borehole descriptions. Overburdens and intercalations of cohesive or otherwise non-dredgeable materials were taken into account to define geologically exploitable aggregates within the total stock. We arrive at about 520 ⋅ 109 m3 of aggregates occurring in the depth range investigated. Some 50% of this amount is considered geologically exploitable and about 25% would in principle (but largely not in reality) be accessible. Most aggregates resources (∼98%) are coarse sand, which is processed for use in concrete, masonry mortars, drains, filters, etc. The total exploitable stock of coarse sand in the depth range investigated amounts to roughly 7500 times the current annual consumption level, and is virtually indepletable. The gravel stock, estimated at some 12 ⋅ 109 m3, is small by comparison, and impels a dependency on imports.

Exploitable aggregates occur in all but the coastal provinces. In accordance with current policy changes, the future may show a shift from concentrated production along the upstream Dutch Rhine and Meuse rivers towards a more even distribution of small-sized operations over the country. Fairly large aggregate stocks, that have not yet been exploited to significant extent, are available in the northern extent of the aggregates occurrences.

Type
Research Article
Copyright
Copyright © Stichting Netherlands Journal of Geosciences 2005

References

Anonymous, 1989. NEN 5104:1989, Geotechnics; Classification of unconsolidated soil samples. Netherlands Normalization Institute (NEN; Delft, NL): 24 pp.Google Scholar
Anonymous, 1990. NEN 5104:1989/C1, Geotechnics; Classification of unconsolidated soil samples (amended). Netherlands Normalization Institute (NEN;Delft, NL): 1 pp.Google Scholar
Anonymous, 1994. Structuurschema Oppervlaktedelfstoffen, Deel 1, Ontwerp Planologische kernbeslissing (in Dutch). Ministry of Transport, Water Management and Public Works (The Hague, NL): 243 pp.Google Scholar
Anonymous, 2001. Code for reporting of mineral exploration results, mineral resources and mineral reserves (the reporting code). Institution of Mining and Metallurgy (London, UK), European Federation of Geologists (Brussels, B), Geological Society of London, Institute of Geologists of Ireland (Dublin, IE): 34 pp.Google Scholar
Anonymous, 2002. 2e Structuurschema Oppervlaktedelfstoffen, Deel 1, Ontwerp Planologische kernbeslissing (in Dutch). Ministry of Transport, Water Management and Public Works (The Hague, NL): 279 pp.Google Scholar
Anonymous, 2004. Nota Ruimte. Ministry of Spatial Planning, Housing and the Environment (The Hague, NL): 50 pp.Google Scholar
Braakhekke, W., Litjens, G. & Winden, A., 2003. Over Winnen - Zandwinning als hefboom (in Dutch). IZGP (Dutch association of sand and gravel producers; Beuningen, NL): 42 pp.Google Scholar
Deutsch, C.V. & Journel, A.G., 1998. GSLIB Geostatistical software library and user’s guide (2nd edition). Oxford University Press (Oxford, UK): 369 pp.Google Scholar
De Mulder, E.F.J., Geluk, M.C., Ritsema, L, Westerhoff, W.E. & Wong, Th.E., 2003. De ondergrond van Nederland. Wolters Noordhof (Groningen, NL): 379 pp.Google Scholar
Kooijman, J., 2003. Haalbaarheidsstudie Authentieke Registratie DINO - Eindrapportage (in Dutch). Netherlands Institute of Applied Geoscience TN0(Utrecht, NL): 42 pp.Google Scholar
NEN, 1991. NEN 3835:1991 NL, Mortels voor metselwerk van stenen, blokken of elementen van baksteen, kalkzandsteen, beton en gasbeton (in Dutch). Dutch Normalization Institute (NNI/NEN; Delft, NL): 16 pp.Google Scholar
NEN, 1999. NEN 5905:1997/A1:1999 NL, Toeslagmaterialen voor beton - Materialen met een volumieke massa van ten minste 2000 kg/m2 (in Dutch). Dutch Normalization Institute (NNI/NEN; Delft, NL): 1 pp.Google Scholar
Peersmann, M.R.H.E., 2005. Geo-Informatieprogramma 2005 (in Dutch). Netherlands Institute of Applied Geoscience TN0 (Utrecht, NL): 200 pp.Google Scholar
Van der Heulen, M.J., 2005. Sustainable mineral development: possibilities and pitfalls illustrated by the rise and fall of Dutch mineral planning guidance. In: Petterson, M., McEvoy, F. & Marker, B.R. (Eds): Sustainable minerals operations in the developing world. The Geological Society of London, Special Publications 250: 225–232.Google Scholar
Van der Meulen, M.J., Broers, J.W., Hakstege, A.L., Van Heilst, M.W.I.M., Koopmans, T.P.F. & Pietersen, H.S., in press. Surface Mineral Resources. In:Wong, Th.E., Batjes, D.A.J. & De Jager, J. (Eds): The Geology and geological resources of the Netherlands. Netherlands Institute of Applied Geoscience TN0 (Utrecht, NL).Google Scholar
Van, der Meulen, M.J., Koopmans, T.P.P. & Pietersen, H.S., 2003. Construction raw materials policy and supply practices in Northwestern Europe. In: Elsen, J. & Degryse, P. (eds): Industrial Minerals - Resources, Characteristics and Applications. Aardkundige Mededelingen 13: 19–30.Google Scholar
Weerts, H.J.T., Schokker, J., Rijsdijk, K.F. & Laban, C. 2004. Geologische overzichtskaart van Nederland / Geological map of the Netherlands. Netherlands Institute of Applied Geoscience TN0 (Utrecht, NL).Google Scholar