Hostname: page-component-78c5997874-lj6df Total loading time: 0 Render date: 2024-11-02T20:51:59.013Z Has data issue: false hasContentIssue false

A geophysical profile at the foot of the Dutch coastal dunes near the former outlet of the ‘Old Rhine’

Published online by Cambridge University Press:  01 April 2016

A.C. Seijmonsbergen
Affiliation:
Institute for Biodiversity and Ecosystem Dynamics (IBED), section Computational Bio- and Physical Geography (CBPG), University of Amsterdam, Nieuwe Achtergracht 166, 1018WV Amsterdam, The Netherlands. E-mail: [email protected]
D.T. Biewinga*
Affiliation:
Adviesbureau voor Geofysica en Geologie, Prof. Brandsmaweg 15a, 8308RT Nagele, The Netherlands.
A.P. Pruissers
Affiliation:
Netherlands Institute of Applied Geoscience TNO -, National Geological Survey, P.O. Box 80015, 3508TA Utrecht, The Netherlands
*
Tel: +31 (0)527 65 21 41, fax: +31 (0)527 65 21 47, e-mail:, [email protected](corresponding author)
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

The apparent electrical conductivity of the subsurface along the Dutch coast between ‘Wassenaarse Slag’ (beach post 92.250) and north of Noordwijk aan Zee (beach post 77.750) reflects the spatial distribution of Holocene coastal deposits. Using a Geonics EM-34 a threefold division based on the mean electrical conductivity could be made in the outlet area of the River Old Rhine. 1) A section showing a sequence of sandy deposits that resembles the Schoorl Member of the Naaldwijk Formation on top of the Zandvoort Member of the Naaldwijk Formation. 2) A section underlain by a shallow clay/peat layer of varying thickness belonging to the Naaldwijk Formation (Walcheren Member) / Nieuwkoop Formation (Hollandveen Member), intercalated within the Schoorl Member and Zandvoort Member of the Naaldwijk Formation. South of the Old Rhine locally Wormer Member deposits of the Naaldwijk Formation underlie these clay/peat layers. 3) A section characterized by channel fill deposits of the former Rhine reaching to -20 m below Normaal Amsterdam Peil (N.A.P.), and belonging to deposits of the Wormer Member of the Naaldwijk Formation, and to two facies of the Naaldwijk Formation (Walcheren Member). The geophysical transect was calibrated using existing nearby drill hole data, so that a continuous snapshot of the subsurface was gained. Therefore this research also contributes to the recent genesis of this part of the Dutch coast.

Type
Geo(Im)pulse
Copyright
Copyright © Stichting Netherlands Journal of Geosciences 2004

References

Biewinga, D.T., Pruissers, A.P. & Seijmonsbergen, A.C., 1990. Het mondingsgebied van de Oude Rijn geofysisch ontsloten. H2O 11/90: 304–307.Google Scholar
De Mulder, E.F.J., Geluk, M.C., Ritsema, I., Westerhoff, W.E. & Wong, T.E. (eds), 2003. De ondergrond van Nederland. Netherlands Institute of Applied Geoscience TNO - National Geological Survey. Peeters (Herent): 119–246.Google Scholar
Ebbing, J.H.J., Weerts, H.J.T. & Westerhoff, W.E., 2003. Towards an integrated land-sea stratigraphy of the Netherlands. Quaternary Science Reviews 22: 1579–1587.Google Scholar
Pruissers, A.P. & De Gans, W., 1988. De bodem van Leidschendam. In: Daans, F.H.C.M. & De Kort, J.D. (eds): Over, door en om de Leytsche Dam. Geschiedenis van een gouden gemeente. Leidschendam: 16 pp.Google Scholar
Geonics Limited Technical Note TN-6, 1980. Electromagnetic Terrain Conductivity Measurement at low induction numbers. Geonics limited #8, 1745 Meyerside, Dr. Mississauga, Ont., L5T 1C6.Google Scholar
Weerts, H.J.T., 2003. Stratotype beschrijving van de Naaldwijk Formatie. Nomenclator Shallow Subsurface, Version 1. http://www.nitg.mo.tno/nomenclatorShallow/nl/marien/naaldwijk/index.html Google Scholar
Zagwijn, W.H., 1986. Nederland in het Holoceen. Rijks Geologische Dienst. Staatsuitgeverij (’s-Gravenhage): 46 pp.Google Scholar