Hostname: page-component-8448b6f56d-jr42d Total loading time: 0 Render date: 2024-04-24T19:07:44.958Z Has data issue: false hasContentIssue false
  • English
  • Français

Palaeoenvironmental reconstructions: a tribute to the career of Jef Vandenberghe (editorial)

Published online by Cambridge University Press:  24 March 2014

C. Kasse  and
H. Renssen
C. Kasse*
Affiliation:
Cluster Earth & Climate, Faculty of Earth and Life Sciences, Vrije Universiteit Amsterdam, De Boelelaan 1081, 1081 HV Amsterdam, the Netherlands
H. Renssen
Affiliation:
Cluster Earth & Climate, Faculty of Earth and Life Sciences, Vrije Universiteit Amsterdam, De Boelelaan 1081, 1081 HV Amsterdam, the Netherlands
*
Email: c.kasse@vu.nl.
Rights & Permissions [Opens in a new window]

Abstract

An abstract is not available for this content so a preview has been provided. As you have access to this content, a full PDF is available via the ‘Save PDF’ action button.
Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Editorial
Information
Netherlands Journal of Geosciences , Volume 91 , Issue 1-2 , September 2012 , pp. 1 - 3
Copyright
Copyright © Stichting Netherlands Journal of Geosciences 2012

References

Bogaart, P.W., Van Balen, R.T., Kasse, C. & Vandenberghe, J., 2003. Process-based modelling of fluvial system response to rapid climate change II. Application to the river Maas (the Netherlands) during the Last Glacial-Interglacial Transition. Quaternary Science Reviews 22: 20972110.CrossRefGoogle Scholar
Bokhorst, M.P., Vandenberghe, J., Sümegi, P., Lanczont, M., Gerasimenko, N.P., Matviishina, Z.N., Markovic, S.B. & Frechen, M., 2011. Atmospheric circulation patterns in central and eastern Europe during the Weichselian Pleniglacial inferred from loess grain-size records. Quaternary International 234: 6274.CrossRefGoogle Scholar
Bridgland, D. & Westaway, R., 2012. The use of fluvial archives in reconstructing landscape evolution: the value of sedimentary and morphostratigraphical evidence. Netherlands Journal of Geosciences 1/2: 524, this issue.CrossRefGoogle Scholar
Busschers, F.S., Kasse, C., Van Balen, R.T., Vandenberghe, J., Cohen, K.M., Weerts, H.J.T., Wallinga, J.Johns, C., Cleveringa, P. & Bunnik, F.P.M., 2007. Late Pleistocene evolution of the Rhine-Meuse system in the Southern North Sea basin: imprints of climate change, sea-level oscillation and glacioisostacy. Quaternary Science Reviews 26: 32163248.CrossRefGoogle Scholar
Czudek, T., 2012. Soft rock pediments in South Moravia, Czech Republic. Netherlands Journal of Geosciences 1/2: 215222, this issue.CrossRefGoogle Scholar
De Moor, J.J.W., Kasse, C., Van Balen, R., Vandenberghe, J. & Wallinga, J., 2008. Human and climate impact on catchment development during the Holocene – Geul River, the Netherlands. Geomorphology 98: 316339.CrossRefGoogle Scholar
Demoulin, A., Beckers, A., Rixhon, G., Braucher, R., Bourlès, D. & Siame, L., 2012. Valley downcutting in the Ardennes (W Europe): Interplay between tectonically triggered regressive erosion and climatic cyclicity. Netherlands Journal of Geosciences 1/2: 7990, this issue.CrossRefGoogle Scholar
French, H. & Demitroff, M., 2012. Late Pleistocene paleohydrography, eolian activity and frozen ground, New Jersey Pine Barrens, Eastern USA. Netherlands Journal of Geosciences 1/2: 2535, this issue.CrossRefGoogle Scholar
Gábris, G., Horváth, E., Novothny, A. & Ruszkiczay-Rüdiger, Z., 2012. Fluvial and aeolian landscape evolution in Hungary – results of the last 20 years research. Netherlands Journal of Geosciences 1/2: 111128, this issue.CrossRefGoogle Scholar
Gibbard, P.L., Boreham, S., West, R.G. & Rolfe, C., 2012. Late Middle Pleistocene glaciofluvial sedimentation in western Norfolk, England. Netherlands Journal of Geosciences 1/2: 6378, this issue.CrossRefGoogle Scholar
Harmand, D. & Cordier, S., 2012. The Pleistocene terrace staircases of the present and past rivers downstream from the Vosges Massif (Meuse and Moselle catchments). Netherlands Journal of Geosciences 1/2: 91109, this issue.CrossRefGoogle Scholar
Isarin, R. & Aalbersberg, G., 2012. The role of earth sciences in Dutch archaeology. Netherlands Journal of Geosciences 1/2: 279283, this issue.Google Scholar
Janssens, M., Kasse, C., Bohncke, S.J.P., Greaves, H., Cohen, K.M., Wallinga, J. & Hoek, W.Z., 2012. Climate-driven fluvial development and valley abandonment at the last glacial-interglacial transition (Oude IJssel-Rhine, Germany). Netherlands Journal of Geosciences 1/2: 3762, this issue.CrossRefGoogle Scholar
Kasse, C., Bohncke, S.J.P.Vandenberghe, J. & Gábris, G., 2010 Fluvial style changes during the last glacial-interglacial transition in the middle Tisza valley (Hungary). Proceedings Geologists' Association 121: 180194.CrossRefGoogle Scholar
Keesstra, S.D., Kondrlova, E., Czajka, A., Seeger, M. & Maroulis, J., 2012. Assessing riparian zone impacts on water and sediment movement: a new approach. Netherlands Journal of Geosciences 1/2: 245255, this issue.CrossRefGoogle Scholar
Konert, M. & Vandenberghe, J., 1997. Comparison of laser grain-size analysis with pipette and sieve analysis: a solution for the underestimation of the clay fraction. Sedimentology 44: 523535.CrossRefGoogle Scholar
Lu, H., Wang, X., Wang, X., Sun, X., Yi, S., Zhou, Y., Liu, Q., Swinehart, J. & Vandenberghe, J., 2012. Palaeoclimatic changes in northeastern Qinghai-Tibetan Plateau revealed by magnetostratigraphy and magnetic susceptibility analysis of thick loess deposits. Netherlands Journal of Geosciences 1/2: 189198, this issue.CrossRefGoogle Scholar
Marković, S.B., Hambach, U., Stevens, T., Jovanović, M., O'Hara-Dhand, K., Basarin, B., Lu, H., Smalley, I., Buggle, B., Zech, M., Svirčev, Z., Sümegi, P., Milojković, N. & Zöller, L., 2012. Loess in Vojvodina region (Northern Serbia): an essential link between European and Asian Pleistocene environments. Netherlands Journal of Geosciences 1/2: 173188, this issue.Google Scholar
Meijs, E.P.M., Van Peer, Ph. & De Warrimont, J.P.L.M.N., 2012. Geomorphologic context and proposed chronostratigraphic position of Lower Palaeolithic artefacts from the Op de Schans pit near Kesselt (Belgium) to the west of Maastricht. Netherlands Journal of Geosciences 1/2: 137157, this issue.Google Scholar
Prins, M.A., Vriend, M., Nugteren, G., Vandenberghe, J., Lu, H., Zheng, H. & Weltje, G.J., 2007. Late Quaternary aeolian dust flux variability on the Chinese Loess Plateau: Inferences from unmixing of loess grain-size records. Quaternary Science Reviews 26: 230242.CrossRefGoogle Scholar
Renssen, H., Kasse, C., Vandenberghe, J. & Lorenz, S.J., 2007. Weichselian Late Pleniglacial surface winds over Northwest and Central Europe: a model-data comparison. Journal of Quaternary Science 22: 281293.CrossRefGoogle Scholar
Vandenberghe, J., 1977. Geomorfologie van de Zuiderkempen. Verhandelingen van de Koninklijke Academie voor Wetenschappen, Letteren en Schone Kunsten van Belgie, Jrg XXXIX, Nr. 140, 166 pp.Google Scholar
Vandenberghe, J., 1985. Paleoenvironment and stratigraphy during the Last Glacial in the Belgian-Dutch border region. Quaternary Research 24: 2338.CrossRefGoogle Scholar
Vandenberghe, J., 1991. Changing conditions of aeolian sand deposition during the last deglaciation period. Zeitschrift für Geomorphologie Neue Folge, Supplement-Band 90: 193207Google Scholar
Vandenberghe, J., 1992. Periglacial phenomena and Pleistocene environmental conditions in the Netherlands – an overview. Permafrost and Periglacial Processes 3: 363374.CrossRefGoogle Scholar
Vandenberghe, J., 1995. Timescales, climate and river development. Quaternary Science Reviews 14: 631638.CrossRefGoogle Scholar
Vandenberghe, J., 2003. Climate forcing of fluvial system development: an evolution of ideas. Quaternary Science Reviews 22: 20532060.CrossRefGoogle Scholar
Vandenberghe, J., 2006. Cryoturbation structures. In: Elias, S.A. (ed.): Encyclopedia of Quaternary Science. Elsevier (Amsterdam): 21472153.Google Scholar
Vandenberghe, J., 2008. The fluvial cycle at cold-warm-cold transitions in lowland regions: A refinement of theory. Geomorphology 98: 275284.CrossRefGoogle Scholar
Vandenberghe, J., 2012. Multi-proxy analysis: a reflection on essence and potential pitfalls. Netherlands Journal of Geosciences 1/2: 263269, this issue.CrossRefGoogle Scholar
Vandenberghe, J., Paris, P., Kasse, C., Gouman, M. & Beyens, L., 1984. Paleomorphological and botanical evolution of small lowland valleys – A case study of the Mark valley in northern Belgium. Catena 11: 229238.Google Scholar
Vandenberghe, J., Roebroeks, W. & Van Kolfschoten, T. (eds), 1993. Maastricht-Belvédère: stratigraphy, palaeoenvironment and archaeology of the Middle and Late Pleistocene deposits Part II. Mededelingen Rijks Geologische Dienst 47, 91 pp.Google Scholar
Vandenberghe, J., Kasse, C., Bohncke, S. & Kozarski, S., 1994. Climate-related river activity at the Weichselian-Holocene transition: a comparative study of the Warta and Maas rivers. Terra Nova 6: 476485.CrossRefGoogle Scholar
Vandenberghe, J., An, Z., Nugteren, G., Lu, H. & Van Huissteden, J., 1997. New absolute time scale for the Quaternary climate in the Chinese loess region by grain-size analysis. Geology 25–1: 3538.2.3.CO;2>CrossRefGoogle Scholar
Vandenberghe, J., Cui, Z.J., Zhao, L. & Zhang, W., 2004. Thermal contraction crack networks as evidence for Late-Pleistocene permafrost in Inner Mongolia. Permafrost and Periglacial Processes 15: 2129.CrossRefGoogle Scholar
Vandenberghe, J., Renssen, H., van Huissteden, K., Nugteren, G., Konert, M., Lu, H., Dodonov, A. & Buylaert, J.-P., 2006. Penetration of Atlantic westerly winds into Central and East Asia. Quaternary Science Reviews 25: 23802389.CrossRefGoogle Scholar
Vandenberghe, J., Renssen, H., Roche, D. M., Goosse, H., Velichko, A.A., Gorbunov, A. & Levavasseur, G., 2012. Eurasian permafrost instability constrained by reduced sea-ice cover. Quaternary Science Reviews 34: 1623.CrossRefGoogle Scholar
Van der Plicht, H., 2012. Borderline Radiocarbon. Netherlands Journal of Geosciences 1/2: 257261, this issue.CrossRefGoogle Scholar
Van Loon, A.J., Bazkiewicz, M. & Degórski, M., 2012. The role of permafrost in shaping the Late Glacial relief of northern Poland. Netherlands Journal of Geosciences 1/2: 223231, this issue.CrossRefGoogle Scholar
Van Loon, A.J., Mazumder, R. & De, S., 2012. Unravelling the depositional environment of the Archaean Rajkharsawan conglomerate (Jharkhand, eastern India). Netherlands Journal of Geosciences 1/2: 129135, this issue.CrossRefGoogle Scholar
Varga, G., Kovács, J. & Újvári, G., 2012. Late Pleistocene variations of the background aeolian dust concentration in the Carpathian Basin: an estimate using decomposition of grain-size distribution curves of loess deposits. Netherlands Journal of Geosciences 1/2: 159171, this issue.Google Scholar
Vermaat, J.E. & Bokhorst, M., 2012. Earth Sciences and Economics, a productive and dynamic interface awaiting exploration. Netherlands Journal of Geosciences 1/2: 271277, this issue.CrossRefGoogle Scholar
Verstraeten, G., 2012. Combining quantitative field and modelling approaches towards understanding landscape dynamics: an evolution of ideas spanning Jef Vandenberghe's research career. Netherlands Journal of Geosciences 1/2: 233244, this issue.CrossRefGoogle Scholar
Vriend, M., Groot, M.H.M., Hooghiemstra, H., Bogotá-Angel, R.G. & Berrio, J.C., 2012. Changing depositional environments in the Colombian Fúquene Basin at submillennial time-scales during 284-27 ka from unmixed grain-size distributions and aquatic pollen. Netherlands Journal of Geosciences 1/2: 199214, this issue.CrossRefGoogle Scholar
Ward, P.J., Van Balen, R.T., Verstraeten, G., Renssen, H. & Vandenberghe, J., 2009. The impact of land use and climate change on late Holocene and future suspended sediment yield of the Meuse catchment. Geomorphology 103: 389400.CrossRefGoogle Scholar