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Netherlands Journal of Geosciences http://journals.cambridge.org/NJG Additional services for Netherlands Journal of Geosciences: Email alerts: Click here Subscriptions: Click here Commercial reprints: Click here Terms of use : Click here The mineralogy of suspended matter, fresh and Cenozoic sediments in the uvio-deltaic Rhine–Meuse– Scheldt–Ems area, the Netherlands: An overview and review J. Grifoen, G. Klaver and W.E. Westerhoff Netherlands Journal of Geosciences / Volume 95 / Issue 01 / March 2016, pp 23 - 107 DOI: 10.1017/njg.2015.32, Published online: 02 February 2016 Link to this article: http://journals.cambridge.org/abstract_S0016774615000323 How to cite this article: J. Grifoen, G. Klaver and W.E. Westerhoff (2016). The mineralogy of suspended matter, fresh and Cenozoic sediments in the uvio-deltaic Rhine–Meuse–Scheldt–Ems area, the Netherlands: An overview and review. Netherlands Journal of Geosciences, 95, pp 23-107 doi:10.1017/njg.2015.32 Request Permissions : Click here Downloaded from http://journals.cambridge.org/NJG, by Username: njg4781, IP address: 139.63.24.190 on 17 Feb 2016 Netherlands Journal of Geosciences — Geologie en Mijnbouw |95 – 1 | 23–107 | 2016 doi:10.1017/njg.2015.32 Review The mineralogy of suspended matter, fresh and Cenozoic sediments in the fluvio-deltaic Rhine–Meuse–Scheldt–Ems area, the Netherlands: An overview and review J. Griffioen1,∗,G.Klaver2 &W.E.Westerhoff3 1 TNO Geological Survey of the Netherlands, P.O. Box 80 015, 3508 TA Utrecht, the Netherlands and Copernicus Institute of Sustainable Development, Utrecht University, P.O. Box 80 115, 3508 TC Utrecht, the Netherlands 2 Formerly BRGM, Laboratories Division, 3 av. C. Guillemin, BP36009, 45060 Orleans, France; Le Studium, CNRS, Orleans, France; TNO Geological Survey of the Netherlands, P.O. Box 80 015, 3508 TA Utrecht, the Netherlands 3 TNO Geological Survey of the Netherlands, P.O. Box 80 015, 3508 TA Utrecht, the Netherlands ∗ Corresponding author. Email: jasper.griffi[email protected] Manuscript received: 18 March 2015, accepted: 13 October 2015 Abstract Minerals are the building blocks of clastic sediments and play an important role with respect to the physico-chemical properties of the sediment and the lithostratigraphy of sediments. This paper aims to provide an overview of the mineralogy (including solid organic matter) of sediments as well as suspended matter as found in the Netherlands (and some parts of Belgium). The work is based on a review of the scientific literature published over more than 100 years. Cenozoic sediments are addressed together with suspended matter and recent sediments of the surface water systems because they form a geoscientific continuum from material subject to transport via recently settled to aged material. Most attention is paid to heavy minerals, clay minerals, feldspars, Ca carbonates, reactive Fe minerals (oxides, siderite, sulphides, glauconite) and solid organic matter because they represent the dominant minerals and their properties form a main issue in subsurface and water management. When possible and relevant, the amounts, provenance, relationship with grain size distribution, early diagenesis and palaeohydrological evolution are described. Tables with statistical data about the mineral contents and isotopic composition of carbonates and organic matter are presented as overviews. The review on the mineralogy of Dutch fluvial and marine environments is more extensive than that for the other sedimentary environments because the first two have been studied much more intensively than the others and they also form the larger part of the Dutch deposits. The focus is on the natural background mineralogy of Dutch sediments, but this is hard for recent sediments, largely because the massive hydraulic infrastructure present in the Netherlands has probably also affected the mineralogy and geochemistry of sediments deposited in recent centuries. Many findings are summarised, several of which lead to more general insights for the Dutch situation. Ca carbonates in sediments often have several provenances and thus must be considered as mixtures. Dolomite is commonly present in addition to calcite. The importance of biotite as weatherable mica is unclear. Weathering of heavy minerals plays some role but it is unclear in which way it affects the heavy mineral associations. Clays are usually dominated by illite, smectite and their interstratified variant, while kaolinite is usually below 20% and chlorite below 5%. Vermiculite is a minor constituent in fluvial clays and its illitisation presumably happens during early diagenesis in the marine environment. Opaque Fe hydroxides can be present in addition to Fe oxyhydroxide coatings and both will play a role in redox chemistry as reactive Fe minerals. Feldspars in marine sediments must be present but they have not been properly studied. The genesis of rattle stones and carbonate concretions has not been completely elucidated. The fraction of terrigeneous organic matter in estuarine and coastal marine sediments is substantial. The available data and information are spread irregularly over the country and the reviewed information discussed in this paper is derived from relatively small-scale studies dealing with a limited amount of analysed samples. Much information is available from the Scheldt estuaries in the southwestern part of the Netherlands partly due to the severe contamination of the Western Scheldt in recent decades. C Netherlands Journal of Geosciences Foundation 2016 23 Netherlands Journal of Geosciences — Geologie en Mijnbouw 1 Introduction From the foregoing it is clear that insight into the min- eralogical composition of sediments is of general relevance. Mineral grains are the building blocks of clastic sediments. The This being the case, it is surprising that there has been no mixture of minerals together with organic matter influences the overview of the mineralogical composition of sediments in the pore water composition, the soil’s pedological evolution and fer- Netherlands. A wealth of information is available on the geol- tility, the fate of pollutants in the subsurface, the porosity and ogy of the Netherlands, and several books present geological permeability as geohydrological properties and the geomechan- overviews of the country (De Mulder et al., 2003; Wong et al., ical strength of the subsurface. More specifically, mineralogi- 2007 are the most recent and extensive ones). However, these cal composition plays an important role in sediment reactivity kinds of texts address the mineralogy in a qualitative and re- (Van Gaans et al., 2011), greatly influencing surface complex- stricted way, focusing on distinguishing and grouping heavy ation and ion exchange of cations and anions, sorption of or- minerals for stratigraphical reasons. This paper therefore aims ganic substances, denitrification and other redox reactions, as to provide an overview of the mineralogy and organic geochem- well as the weathering processes. Insight into this reactivity is istry of sediments as well as suspended matter as found in the needed for environmental management issues such as drainage- Netherlands (and some parts of Belgium), based on an exten- induced oxidation, aquifer storage and recovery, natural at- sive review of the scientific literature of more than a century. tenuation of pollutants, leaching of nutrients from farmland, We address suspended matter, recent sediments of the surface reactive transport and secondary mobilisation of trace metals, water systems and Cenozoic sediments because they form a and transfer of pollutants or nutrients from aquatic sediments geoscientific continuum: recent marine and fluvial sediments to the water column or vice versa. Additionally, the reactivity as well as suspended matter are the present-day analogues of of sediment influences the pH and redox state of the sub- the geological sediments. Most attention is paid to the follow- surface and hence the stability of the subsurface, man-made ing groups of minerals, with an indication of their relevance: constructions and buried materials (examples being the corro- heavy minerals as indicators of provenance etc., clay miner- sion of steel constructions and the stability of archaeological als for their contribution to the sorption capacity and impact heritage). on geohydrological and geomechanical properties, feldspars as The mineralogy of sediments is also used to stratigraphi- major, weatherable Al silicates, Ca carbonates as reactive, pH- cally classify sediments and to characterise their provenance. buffering minerals, reactive Fe minerals (oxides, carbonates, Heavy minerals (i.e. having a specific density exceeding 2.85 sulphides, glauconite) for their overall reactive behaviour, and kg/dm3; Boggs, 2009) are traditionally used for this purpose, solid organic matter for its redox-controlling and sorptive ca- but this is labour-intensive and is nowadays rarely applied in pacities. The review has been limited to the Cenozoic sediments the Netherlands. The clay mineralogy may also be used as a because there is little literature on older sediments for which palaeogeographical tool to characterise past climatological con- integration is less needed (an exception being the Rotliegend ditions and the provenance of sediments (Tebbens et al., 1998; Sandstone, which is the most important natural gas reservoir Thiry, 2000; Zeelmaekers, 2011). The nature of quartz, mica and rock in the Netherlands and has therefore been intensively feldspar grains also assists in the visual recognition of different
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    Index Acadian Orogeny, 198 bed forms accommodation space migration, 44 and accumulation rates, 104 wave-modified, 52 condensed sections, 81 Beinn Iaruinn Quartzite, 262, 264 and cyclothems, 69 Belemnite Bed, 238, 244-5, 251 depositional response, 267 Belgium, 213 ooid shoals, 66 berthierine, 98-100 overprinting, 71 Binnein Quartzite, 266 and oxygen conditions, 82 biostratigraphic zones acritarchs, 206 Kimmeridge Clay, 87 Agat, 150, 159-61 Portlandian, 111 aggradation Turonian, 181, 183 Kimmeridge Clay, 83 biostratigraphical control, 2 Palaeocene, 223 biostratigraphical gaps, 111, 113 shelf margins, 37 bioturbation, 70, 91, 131 tidal flats, 71 Birnbeck Limestone Formation, 67, 69-70 albaniZone, 109, 115, 118, 123, 137 Bituminous Shales, 84, 238, 239 algaenans, 90 black shales, 77, 80, 82 Alisocysta margarita Zone, 213-14, 220 Black Ven Marls, 244, 248 allocycles, 72 Blea Wyke Sandstone Formation, 239, 248 Allt Goibhre Formation, 262, 264 Blue Lias, 82, 244-5,248 Alpine tectonics, 224 Blyth-Acklington dyke, 225 Alum Shales, 239 bone-beds, 98 Amazon Fan, 159 environments, 103 ammonites, 41-2, 48, 56, 109, 178 geochemistry, 101 biostratigraphy, 181, 231 bottom currents, 150, 159 amorphous organic matter, 77, 89-90 bottom water, volume, 82-3 Anglo-Paris Basin, 218 Boulonnais, 83, 85 anguiformis Zone, 131, 133, 139 brachiopods, 206 angulata Zone, 244 Branscombe Hardground, 193 anoxia, 81-2, 218 Breathitt Group, 36 and uranium, 235 British Tertiary Igneous Province, 224-6 apatite, 100-1,103 Bronnant Fault, 205 Apectodinium hyperacanthum Zone,
  • Early Geothermal Exploration in the Netherlands 1980 - 2000

    Early Geothermal Exploration in the Netherlands 1980 - 2000

    European Geothermal Congress 2019 Den Haag, The Netherlands, 11-14 June 2019 Early Geothermal Exploration in the Netherlands 1980 - 2000 F. Charles Dufour1, Jan Piet Heederik1 1 Former Groundwater Survey TNO - TNO Institute of Applied Geoscience [email protected] (main author) [email protected] (contact person) 1. INTRODUCTION Figure 2: Development of consumer price of gas in €ct per m3 in the Netherlands (1980 - 2010) From the point of view of introduction of geothermal energy in the Netherlands, the period, presented in this paper, was characterised by the following influential aspects. – Geothermal energy had to be an economic attractive alternative for the existing energy sources. Environmental aspects became an aspect of influence only after 1993. – Very restricted knowledge of reservoir characteristics of those formations with a potential for exploitation of geothermal energy was available. – Lack of any cooperation or support by the operating oil companies to submit the necessary more detailed Source: Several. Based on CBS information regarding reservoir characteristics in the period under consideration. Figure 3: Greenhouse gas price in €ct per m3 in the – Lack of any cooperation or support by the existing Netherlands (1975 - 1989) energy supply companies to give room to a demonstration project or to an introduction in housing areas under construction in the period under consideration. It was only in cooperation with ‘Nutsbedrijf Westland N.V.’ NBW that an energy supply company fully cooperated in the preparation of a geothermal project (1992). – Restraint with respect to the possibilities to exploit sandstone reservoirs for geothermal energy, based on experiences in France, where production occurred from carbonate reservoirs and tests of siliciclastic reservoirs had failed.
  • Boek Iwan.Indd

    Boek Iwan.Indd

    GEOLOGICA ULTRAIECTINA Mededelingen van de Faculteit Geowetenschappen Universiteit Utrecht No. 270 Stratigraphical and structural setting of the Palaeogene siliciclastic sediments in the Dutch part of the North Sea Basin Iwan de Lugt 1 Cover illustration: a well log from the North Sea Basin This research was carried out at the Stratigraphy-Paleontology Group, Faculty of Geosciences, Utrecht University and was financed by the Netherlands Institute of Applied Geoscience, TNO-NITG. Address: Budapestlaan 4 3584 CD Utrecht The Netherlands Internet site: www.geo.uu.nl ISBN-10: 90-5744-135-7 ISBN-13: 978-90-5744-135-6 2 Stratigraphical and structural setting of the Palaeogene siliciclastic sediments in the Dutch part of the North Sea Basin Stratigrafie en tektoniek van de Palaeogene siliciklastische sedimenten in het Nederlandse gedeelte van het Noordzeebekken (met een samenvatting in het Nederlands) PROEFSCHRIFT ter verkrijging van de graad van doctor aan de Universiteit Utrecht op gezag van de rector magnificus, prof. dr. W.H. Gispen ingevolge het besluit van het college voor promoties in het openbaar te verdedigen op maandag 15 januari 2007 des middags te 12.45 uur. door Iwan Rommert de Lugt geboren op 31 maart 1975 te Leiderdorp, Nederland 3 Promotores: Prof. Dr. Th.E. Wong Prof. Dr. J.E. Meulenkamp 4 ... a good idea stated within an insufficient theoretical frame loses its explanatory power and is forgotten. Hans Reichenbach (1957) They are grubby little creatures of the sea floor 530 million years old, but we greet them with awe because they are the Old Ones, and they are trying to tell us something.