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Drift sands, lakes, and soils: the multiphase Holocene history of the Laarder Wasmeren area near Hilversum, the Netherlands

  • J. Sevink (a1), E.A. Koster (a2), B. van Geel (a1) and J. Wallinga (a3)
Abstract

A unique complex of multiphased Holocene drift sands and paleosols, with at least two lacustrine phases, was discovered during a major sanitation project in the Laarder Wasmeren area near Hilversum, the Netherlands. The complex could be studied in detail, highly facilitated by the excellent and large-scale exposure of the various deposits and soils. OSL dating was used to establish ages of the phases, where possible differentiating between time of deposition and time of burial by taking into account the potential effects of bioturbation. Pollen analysis served to reconstruct the vegetation during the various phases.

A first minor phase of aeolian activity already started before approx. 5,000 BC, followed around 4,000 BC by a second phase and a rather massive third phase around 3,000 BC. After a long phase of soil formation, the latest, massive drift sand phase started around the 14th to 15th century. It clearly represents the classic drift sand phase that started in the Late Middle Ages in the Netherlands. Sand drifting followed on soil forming phases during which the vegetation became increasingly dominated by ericaceous plants and culminated in heathlands. The first three aeolian phases and associated heathlands are much older than generally assumed for heathland and drift sand to occur in the Netherlands. Moreover, podzolisation was found to have started very early, true podzols already occurring before 4,000 BC.

Around 3,000 BC groundwater in the area reached a maximum altitude of about 230 cm +NAP, resulting in local open water in the area. This rise is probably linked to the development of the Dutch coastal area, where at that time peat accumulated and drainage was poor, inducing a rise of the groundwater level in ‘het Gooi’. This groundwater level fell later on, to never reach this altitude again. The Groot Wasmeer was formed by local stagnation on a slowly permeable podzol and already reached a level of 320-325 cm +NAP by 400 BC, which more or less equals its 20th century level.

The results demonstrate that earlier concepts on the occurrence and age of aeolian phases, podzols and heathland vegetations in the Netherlands are far too schematic, and that early, pre-agricultural cultures may already have had an impact on the stability of fragile cover sand landscapes, e.g. through burning. Results are in line with those from several contemporary studies on early prehistoric cultures and their impact in river dune areas in the Central and Eastern Netherlands.

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      Drift sands, lakes, and soils: the multiphase Holocene history of the Laarder Wasmeren area near Hilversum, the Netherlands
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COPYRIGHT: © Stichting Netherlands Journal of Geosciences 2013
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Email: j.sevink@uva.nl
References
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Ballarini, M., Wallinga, J., Murray, A.S., Van Heteren, S., Oost, A.P., Bos, A.J.J. & Van Eijk, C.W.E., 2003. Optical dating of young coastal dunes on a decadal time scale. Quaternary Science Reviews 22: 10111017.
Ballarini, M., Wallinga, J., Wintle, A.G., & Bos, A.J.J., 2007. A modified SAR protocol for optical dating of individual grains from young quartz samples. Radiation Measurements 42: 360369.
Bateman, M.D. & Godby, S.P., 2004. Late-Holocene Inland Dune Activity in the UK: A case study from Breckland East Anglia. The Holocene, 14: 579588.
Beug, H., 2004. Leitfaden der Pollenbestimmung für Mitteleuropa und angrenzende Gebiete. Verlag Dr. Friedrich Pfeil, München, 542 pp.
Bieleman, J., 1992. Geschiedenis van de landbouw in Nederland 1500-1950. Boom, Meppel/Amsterdam, 423 pp.
Blaauw, M., Van Geel, B., & Van der Plicht, J., 2004. Solar forcing of climatic change during the mid-Holocene: indications from raised bogs in the Netherlands. The Holocene 14: 3544.
Bos, I.J., 2010. Distal delta plain successions. Architecture and lithofacies of lake fills and organics in the Holocene Rhine-Meuse delta, the Netherlands. Ph.D. thesis Utrecht University, 221 pp.
Bos, I.J. Feiken, H., Bunnik, F. & Schokker, J., 2009. Influence of organics and clastic lake fills on distributary channel processes in the distal Rhine-Meuse delta (the Netherlands). Palaeogeography, Palaeoclimatology, Palaeoecology 284: 355374.
Buurman, P., 1985. Carbon/sesquioxide ratios in organic complexes and the transition Albic-Spodic Horizon. Journal of Soil Science 36: 255260
Cammeraat, L.H., Sevink, J. & Vlaming, M., 2008. Doorlaatbaarheidbepalingen podzol B Laarder Wasmeren, IBED Rapport in opdracht van Waternet (Amsterdam), 4 pp.
Casparie, W.A. & Groenman-Van Waateringe, W., 1980. Palynological Analysis of Dutch Barrows. Palaeohistoria 22: 765.
Castel, I.I.Y., 1991. Late Holocene aeolian drift sands in Drenthe (the Netherlands). Ph.D. thesis University of Utrecht, Netherlands Geographical Studies 133, 156 pp.
Castel, I.I.Y., Koster, E.A. & Slotboom, R.T., 1989. Morphogenetic aspects and age of Late Holocene aeolian drift sands in Northwest Europe. Zeitschrift für Geomorphologie 33: 126.
Cohen, K.M., 2005. 3D Geostatistical interpolation and geological interpretation of paleo-groundwater rise in the Holocene coastal prism in the Netherlands. In: Giosan, L. & Bhattacharya, J.P. (eds): River Deltas – Concepts, models, and examples. SEPM Special Publication 83: 341364.
Colaris, W., 1998. Natuur van het Gooi – Kansen voor duurzaam behoud. Ph.D. thesis University of Amsterdam: 420 pp.
Cunningham, A.C., Bakker, M.A.J., Van Heteren, S., Van der Valk, B., Van der Spek, A.J.F., Schaart, D.R. & Wallinga, J., 2011. Extracting storm-surge data from coastal dunes for improved assessment of flood risk. Geology 39, 11: 10631066.
Cunningham, A.C. & Wallinga, J., 2010. Selection of integration time-intervals for quartz OSL decay curves, Quaternary Geochronology 5: 657666.
Cunningham, A.C., Wallinga, J. & Minderhoud, P.S.J., 2011. Expectations of scatter in equivalent-dose distributions when using multi-grain aliquots for OSL dating. Geochronometria 38: 424431.
Davis, B.A.S., Brewer, S., Stevenson, A.C. & Guiot, J., 2003. The temperature of Europe during the Holocene reconstructed from pollen data. Quaternary Science Reviews 22: 17011716.
De Bakker, H. & Schelling, J., 1966. Systeem van bodemclassificatie voor Nederland: de hogere niveaus. Pudoc (Wageningen), 217 pp.
De Mulder, E.F.J., Geluk, M.C., Ritsema, I.L., Westerhoff, W.E. & Wong, T.E. (eds). 2003. De ondergrond van Nederland (Geologie van Nederland 7). Wolters-Noordhoff (Groningen/Houten), 379 pp.
Derese, C., Vandenberghe, D., Eggermont, N., Bastiaens, J., Annaert, R. & Van Den Haute, P., 2010. A medieval settlement caught in the sand: optical dating of sand-drifting at Pulle (N Belgium). Quaternary Geochronology 5: 336341.
De Smidt, J.T., 1975. Nederlandse heidevegetaties. Thesis Universiteit Utrecht, 98 pp.
Dijkmans, J.W.A., Wintle, A.G. & Mejdahl, V., 1988. Some thermoluminescence properties and dating of aeolian sands from the Netherlands. Quaternary Science Reviews 7: 349355.
Dijkmans, J.W.A. & Wintle, A.G., 1991. Methodological problems in thermoluminescence dating of Weichselian cover sand and late Holocene drift sand from the Lutterzand area, E Netherlands. Geologie en Mijnbouw 70: 2133.
Dijkmans, J.W.A., Van Mourik, J.M. & Wintle, A.G., 1992. Thermoluminescence dating of aeolian sands from polycyclic soil profiles in the Southern Netherlands. Quarternary Science Reviews 11: 8592.
Dimbleby, G.W., 1985. The palynology of archaeological sites. Academic Press, (London), 176 pp.
Dorland, E., Hart, M. A. C., Vermeer, M. L. & Bobbink, R., 2005. Assessing the success of wet heath restoration by combined sod cutting and liming. Applied Vegetation Science 8(2): 209218.
Duller, G.A.T., 2003. Distinguishing quartz and feldspar in single grain luminescence measurements. Radiation Measurements 37: 161165.
Fanta, J. & Siepel, H., 2010. Inland Drift Sand Landscapes. KNNV Publishing, Zeist, the Netherlands, 384 pp.
Fxgri, K. & Iversen, J., 1989. In: Fægri, K., Kaland, P.E. & Krzywinski, K. (eds): Textbook of Pollen Analysis, fourth ed. Wiley and Sons, New York, 328 pp.
FAO, 1998. World Reference Base for Soil Resources. World Soil Resources Reports 84. Rome. International Society of Soil Science.
Feijen, J.M., 2003. Oak, king of villein?: is the common oak (Quercus robur and Q. petraea) an anachronism in the Dutch forests?: a literature study. M.Sc. thesis WUR, Wageningen, 99 p.
Folk, R.L. & Ward, W.C., 1957. Brazos river bar: a study in the significance of grain-size parameters. Journal of Sedimentary Petrology 27: 326.
Galbraith, R.F., 1990. The radial plot – graphical assessment of spread in ages. Nuclear Tracks and Radiation Measurements 17: 207214.
Galbraith, R.F., Roberts, R.G., Laslett, G.M., Yoshida, H. & Olley, J.M., 1999. Optical dating of single and multiple grains of quartz from Jinmium rock shelter, northern Australia: Part I, experimental design and statistical models. Archaeometry 41: 339364.
Groeneveld, J., 2001. Hoofdwegen in en rond Eemnes door de eeuwen heen. Historische Kring Eemnes, jaargang 23, nr. 3: 141155.
Groenman-Van Waateringe, W., 2010. Man and vegetation on the Veluwe in six time slices. In: Fanta, J. & Siepel, H. (eds): Inland Drift Sand Landscapes. KNNV Publishing (Zeist) the Netherlands: 4964.
Heidinga, H.A., 1984. Indications of severe drought during the 10th century AD from an inland dune area in the Central Netherlands. Geologie en Mijnbouw 63: 241248.
Heidinga, H.A., 2010. The birth of a desert; the Kootwijkerzand. In: Fanta, J. & Siepel, H. (eds): Inland drift sand landscapes. KNNV Publishing (Zeist) the Netherlands: 6581.
Hilgers, A., Murray, A.S., Schlaak, N. & Radtke, U., 2001. Comparison of quartz OSL protocols using Lateglacial and Holocene dune sands from Brandenburg, Germany. Quaternary Science Reviews 20: 731736.
Hilgers, A., 2007. The chronology of Late Glacial and Holocene dune development in the northern Central European Lowland reconstructed by optically stimulated luminescence (OSL) dating. Thesis Universität zu Köln: 353 pp.
Jungerius, P.D. & Riksen, M.J.P.M., 2010. Contribution of laser altimetry images to the geomorphology of the Late Holocene inland drift sands of the European Sand Belt. Baltica 23 (1): 5970.
Kasse, C., 2002. Sandy aeolian deposits and environments and their relation to climate during the Last Glacial Maximum and Lateglacial in northwest and central Europe. Progress in Physical Geography 26: 507532.
Koopman, S., Pfeifer, A.E. & Ruegg, G.H.J., 2010. Goois Geologisch Informatie-Systeem. www.ivngooi.nl/ggis/inleid.htm.
Koopman, S. & Pfeifer, A.E., 2012. De paleografische ontwikkeling van Gooi en Eemland sinds het Saalien. Grondboor en Hamer 3: 267275.
Koster, E.A., 1978. De stuifzanden van de Veluwe: een fysisch geografische studie (Eolian drift sands of the Veluwe, Central Netherlands). Publicaties van het Fysisch Geografisch en Bodemkundig Laboratorium, Thesis Universiteit van Amsterdam, 195 pp.
Koster, E.A., 1982. Terminology and Lithostratigraphic Subdivision of (Surficial) Sandy Eolian Deposits in the Netherlands. An Evaluation. Geologie en Mijnbouw 61: 121129.
Koster, E.A., 1988. Ancient and modern cold-climate aeolian sand deposition: A review. Journal of Quaternary Science 3: 6983.
Koster, E.A., 2005a. Recent advances in luminescence dating of Late Pleistocene (cold-climate) aeolian sand and loess deposits in Western Europe. Permafrost and Periglacial Processes 16: 131143.
Koster, E.A., 2005b. Aeolian environments. In: Koster, E.A. (ed.): The Physical Geography of Western Europe. Oxford Regional Environments. Oxford University Press: 139160.
Koster, E.A., 2009. The history of Late Holocene drift sands in the Netherlands: origin and reactivation. In: Dulias, R., Pelka-Gosalciniak, J., & Rahmonova, O. (eds): Ekosystemy Piaszczyste i Czlowiek. Prace Wydzialu Nauk o Ziemi Uniwersytetu Sallaskiego nr. 58, Sosnowiec: 111134.
Koster, E.A., 2010. Origin and development of Late Holocene drift sands: geomorphology and sediment attributes. In: Fanta, J. & Siepel, H. (eds): Inland drift sand landscapes. KNNV Publishing (Zeist): 2548.
Koster, E.A., 2012. Sedimentologie van stuifzand. Grondboor en Hamer 65: 123130.
Koster, E.A., Castel, I.I.Y. & Nap, R.L., 1993. Genesis and sedimentary structures of late Holocene aeolian drift sands in northwest Europe. In: Pye, K. (ed.): The dynamics and environmental context of aeolian sedimentary systems. Geological Society Special Publication (London) 72: 247267.
Louwe Kooijmans, L. P., 1995. Prehistory or paradise? Prehistory as a reference for modern nature development, the Dutch case – Mededelingen Rijks Geologische Dienst 52: 415424.
Louwe Kooijmans, L.P., Van Den Broeke, P.W., Fokkens, H. & Van Gijn, A.L. (eds), 2005. The Prehistory of the Netherlands. Amsterdam: Amsterdam University Press, 472 pp.
Louwe Kooijmans, L.P., 2012. Holland op z'n wildst? De Vera-hypothese getoetst aan de prehistorie. De levende Natuur, 113 (2): 6266.
Lundström, U.S., Van Breemen, N. & Bain, D., 2000. The podzolization process. A review. Geoderma 94: 91107.
Madsen, A.T., Murray, A.S. & Andersen, T.J., 2007. Optical dating of dune ridges on R0m0, a barrier island in the Wadden Sea, Denmark. Journal of Coastal Research 23: 12591269.
Mook, W.G. & Van der Plicht, J., 1999. Reporting 14C activities and concentrations. Radiocarbon 41: 227239.
Moore, P.D., Webb, J.A. & Collinson, M.E., 1991. Pollen Analysis. Blackwell Science (Malden) MA, 217 pp.
Murray, A.S. & Clemmensen, L.B., 2001. Luminescence dating of Holocene aeolian sand movement, Thy, Denmark. Quaternary Science Reviews (Quaternary Geochronology) 20: 751754.
Murray, A.S. & Wintle, A.G., 2000. Luminescence dating of quartz using an improved single-aliquot regenerative-dose protocol. Radiation Measurements 32: 5773.
Prescott, J.R. & Hutton, J.T., 1994. Cosmic ray contributions to dose rates for luminescence and ESR dating: large depths and long-term time variations. Radiation Measurements 23: 497500.
Pye, K. & Tsoar, H., 1990. Aeolian sand and sand dunes. Unwin Hyman (London), 396 pp.
Radtke, U. (ed.), 1998. Lumineszenzdatierung äolischer Sedimente. Beiträge zur Genese und Altersstellung jungquartärer Dünen und Lösse in Deutschland. Kölner Geografische Arbeiten H 70 (Köln), 124 pp.
Reineck, H.E. & Singh, I.B., 1980. Depositional sedimentary environments, Springer (Berlin), 549 pp.
Reimer, P.J., Baillie, M.G.L., Bard, E., Bayliss, A., Beck, J.W., Blackwell, P.G., Bronk Ramsey, C., Buck, C.E., Burr, G.S., Edwards, R.L., Friedrich, M., Grootes, P.M., Guilderson, T.P., Hajdas, I., Heaton, T.J., Hogg, A.G., Hughen, K.A., Kaiser, K.F., Kromer, B., McCormac, F.G., Manning, S.W., Reimer, R.W., Richards, D.A., Southon, J.R., Talamo, S., Turney, C.S.M., Van der Plicht, J. & Weyhenmeyer, C.E., 2009. IntCal09 and Marine09 Radiocarbon Age Calibration Curves, 0-50,000 Years cal BP, Radiocarbon 51: 11111150.
Riksen, M., Ketner-Oostra, R., Van Turnhout, C., Nijssen, M., Goossen, D., Jungerius, P.D. & Spaan, W., 2006. Will we lose the last active inland drift sands of Western Europe? The origin and development of the inland drift-sand ecotope in the Netherlands. Landscape Ecology 21: 431447.
Ruegg, G.H.J., 1983. Periglacial eolian evenly laminated sandy deposits in the Late Pleistocene of NW Europe, a facies unrecorded in modern sedimentological handbooks. In: Brookfield, M.E. & Ahlbrandt, T.S. (eds.): Eolian sediments and processes (Developments in Sedimentology 38). Elsevier (Amsterdam): 455482.
Ruegg, G.H.J., 1995. Kwartaire wordingsgeschiedenis van, en ontsluitingen in het Gooi. Grondboor en Hamer 49: 8289.
Schilder, M., Wallinga, J. & Van Mourik, J., 2006. OSL and radiocarbon dating of Late-Holocene drift-sand deposits in the southern Netherlands. In: Hoek, W.H. & Wallinga, J. (eds): NCL symposium series 4: 89.
Schot, P.P., 1989. Grondwatersystemen en grondwaterkwaliteit in het Gooi en randgebieden. Rapport Interfacultaire vakgroep Milieu, Universiteit Utrecht, 44 pp.
Schot, P.P. & Engelen, G.B., 1989. Analyse van water systemen in Het Goois-Utrechts stuwwallengebied, de Vechtstreek en de Eem vallei: Identificatie van knelpunten. In: Van Liere, L., Roijackers, R.M.M. & Verstraelen, P.J.T. (eds): CHO-TNO Rapporten en Notas nr. 22: 103117.
Schwan, J., 1986. The origin of horizontal alternating bedding in Weichselian aeolian sands in Northwestern Europe. Sedimentary Geology 49: 73108.
Schwan, J., 1988. The structure and genesis of Weichselian to Early Holocene aeolian sand sheets in Western Europe. Sedimentary Geology 55: 197232.
Sevink, J., 2007. Aardkundig Excursiepunt 13 Het Gooi. Grondboor & Hamer 61: 3035.
Sevink, J., 2010. Precisiewerk bij bodemsanering. aandacht voor venherstel en aardkundige waarden bij sanering Laarder Wasmeren. Vakblad Natuur Bos Landschap 9: 2629.
Sevink, J., Hulshof, O.K., Mucher, H.J. & Kroonenberg, S.B., 1970. Age and development of some fossil podzols in the Dinkel valley (E-Netherlands). In: From field to laboratory. Publ. 16, Fys. Geogr. en Bodemk. Lab. UvA: 133148.
Sevink, J., Vlaming, M.C., Van den Berg, W.J., Khodabux, E.R., Landsmeer, D. & Stoeten, G.J., 2008. De sanering van het Laarder Wasmerengebied. Bodem 5: 811.
Sevink, J. & De Waal, R., 2010. Soil and humus development in drift sands. In: Fanta, J. & Siepel, H. (eds): Inland Drift Sand Landscapes. KNNV Publishing (Zeist) the Netherlands: 107138.
Sevink, J., Siebelink, B., Strijbis, P. & De Haan, F., 2012. Nieuwe schoonheid: De sanering van de Laarder Wasmeren. Waterschap Amstel, Gooi en Vecht/Provincie Noord-Holland / GNR, 44 p.
Sparrius, L.B., 2011. Inland dunes in the Netherlands: soil, vegetation, nitrogen deposition and invasive species. Ph.D. thesis UvA Universiteit van Amsterdam, 165 pp.
Spek, T., 2004. Het Drentse esdorpenlandschap. Een historisch-geografische studie. (Village and open field landscapes of the Dutch province of Drenthe. A historical-geographical study). Thesis University of Wageningen, Stichting Matrijs (Utrecht), 1100 pp.
Strickertsson, K. & Murray, A.S., 1999, Optically stimulated luminescence dates for Late Pleistocene and Holocene sediments from Nørre Lyngby, Northern Jutland, Denmark. Quaternary Science Reviews (Quaternary Geochronology) 18: 169178.
Tolksdorf, J.F. & Kaiser, K., 2012. Holocene Aeolian Dynamics in the European Sand-Belt as Indicated by Geochronological Data. Boreas 41: 408421.
Van Beek, R., 2009. Reliëf in tijd en ruimte. Interdisciplinair onderzoek naar bewoning en landschap van Oost-Nederland tussen vroege prehistorie en middeleeuwen. Ph.D. thesis. Wageningen University, 641 pp.
Van Geel, B., Bohncke, S.J.P. & Dee, H., 1981. A palaeoecological study of an upper Lateglacial and Holocene sequence from ‘de Borchert’, the Netherlands. Review of Palaeobotany and Palynology 31: 367448.
Van Geel, B. & Bos, I., 2007. Paleo-ecologisch onderzoek naar beginnende veenvorming bij Abcoude. In: Beenakker, J.J.M., Horsten, F.J., Kraker, A.M.J. de & Renes, H. (ed.): Landschap in ruimte en tijd, Aksant.
Van Leerdam, A., Ouboter, M. & Beemster, J., 2010. Water, de stromende verbinding tussen Eeem en Vecht, verleden en heden. Publ. Vrienden van't Gooi / Stichting Tussen Eem en Vecht, Bussum/Naarden, the Netherlands.
Van der Meijden, F., 1996. Heukels' Flora van Nederland. Wolters-Noordhoff, 676 pp.
Van Mourik, J.M., 2003. Life cycle of pollen grains in mormoder humus forms of young acid forest soils: a micromorphological approach. Catena 54: 651663.
Van Mourik, J.M., Wartenberg, P.E., Mook, W.E. & Streurman, H.J., 1988. Absolute datering van humeuze horizonten in paleosolen. Netherlands Geographical Studies 74: 4357.
Van Mourik, J.M., Wartenbergh, P.E., Mook, W.G. & Streurman, H.J., 1995. Radiocarbon dating of palaeosols in aeolian sands. Mededelingen Rijks Geologische Dienst 52: 425440.
Van Mourik, J.M., Nierop, K.G.J. & Vandenberghe, D.A.G., 2010. Radiocarbon and optically stimulated luminescence dating based chronology of a polycyclic driftsand sequence at Weerterbergen (SE Netherlands). Catena 80: 170181.
Van Mourik, J.M., Slotboom, R.T. & Wallinga, J., 2011. Chronology of plaggic deposits; palynology, radiocarbon and optically stimulated luminescence dating of the Posteles (NE-Netherlands). Catena 84: 5460.
Van Reeuwijk, L.P., 2002. Procedures for Soil Analysis, 6th ed., Technical Paper 9. ISRIC (Wageningen), 120 pp.
Velstra, J., Van der Maarel, A.M., Heimovaara, T.J., Keizer, H. & Taat, J., 2004. Grondwateronderzoek stortplaats Anna's Hoeve en Laarder Wasmeren Complex. Royal Haskoning.
Vera, F., 1997. Metaforen voor de Wildernis – eik, hazelaar, rund, paard. Proefschrift, LU Wageningen/Ede, 426 pp.
Vos, P.C., Bazelmans, J., Weerts, H.J.T. & Van der Meulen, M.J., 2011. Atlas van Nederland in het Holoceen. Bert Bakker (Amsterdam), 94 pp.
Wallinga, J., Davids, F. & Dijkmans, J.W.A., 2007. Luminescence dating of Netherlands' sediments. Netherlands Journal of Geosciences 86: 179196.
Wallinga, J. & Bos, I.J., 2010. Optical dating of clastic lake-fill sediments – a feasibility study in the Holocene Rhine delta (western Netherlands). Quaternary Geochronology 5: 602610.
Waterbolk, H.T., 1964. Podsolierungserscheinungen bei Grabhuegeln. Palaeo-historia, 10: 87102.
Weerts, H., Cleveringa, P. & Gouw, M., 2002. De Vecht/Angstel, een riviersysteem in het veen. Grondboor en Hamer 2002 nr. 3/4: 6671.
Whitehouse, N. & Smith, D., 2010. How fragmented was the British Holocene wildwood? Perspectives on the ‘Vera’ grazing debate from the fossil beetle record. Quaternary Science Reviews 29: 539553.
Willemse, N.W. & Groenewoudt, B.J., 2012 Resilience of Meta-Stable Landscapes? The Non-Linear Response of Late Glacial Aeolian Landforms to Prehistoric Reclamation along Dutch River Valleys. eTopoi, Journal for Ancient Studies. Special Volume 3: 10071037.
Wimmers, W.H. & Van Zweden, R., 1992: Archeologische en historisch-geogra-fische elementen in een natuurgebied : antropogene achtergronden van de Gooise natuurgebieden. Wageningen, SC-DLO Rapport 143: 203 pp.
Wimmers, W.H., Groenman-Van Waateringe, W. & Spek, T., 1993. Het culturele erfgoed van een natuurgebied. Honderden eeuwen menselijke activiteit in het natuurlandschap van de Bussumer- en Westerheide, Historisch-Geografisch Tijdschrift 11: 5374.
Wintle, A.G., 2008. Luminescence dating of Quaternary sediments – introduction. Boreas 4: 469470.
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Netherlands Journal of Geosciences
  • ISSN: 0016-7746
  • EISSN: 1573-9708
  • URL: /core/journals/netherlands-journal-of-geosciences
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