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The Eemian - local sequences, global perspectives: introduction

Published online by Cambridge University Press:  01 April 2016

Philip L. Gibbard
Affiliation:
Godwin Institute of Quaternary Research, Department of Geography, University of Cambridge, Downing Street, CAMBRIDGE CB2 3EN, England; e-mail: [email protected]

Extract

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The history of this volume goes back to a 1973 INQUA congress in New Zealand, where an INQUA Commission of Stratigraphy working group on major subdivisions of the Pleistocene was established. The Pleistocene series/epoch was hitherto generally subdivided into the Lower/Early, Middle and Upper/Late Pleistocene (see, among others, Zeuner, 1935, 1959) but the boundaries between these subseries/subepochs were not formally defined. The boundary between the Early and Middle Pleistocene was, in the European literature, put at the base of the Cromerian Complex (Zagwijn, 1963) or at the Brunhes/Matuyama magnetic boundary (Richmond, 1996).

Type
Research Article
Copyright
Copyright © Stichting Netherlands Journal of Geosciences 2000

References

Bosch, J.H.A., Cleveringa, P. & Meijer, T., 2000. The Eemian stage of the Netherlands: history, character and new research. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.): The Eemian - local sequences, global perspectives. Geologie en Mijnbouw / Netherlands Journal of Geosciences 79: 135145 (this issue).Google Scholar
Cleveringa, P., Meijer, T., Van Leeuwen, R.J.W., De Wolf, H., Pouwer, R., Lissenberg, T. & Burger, A.W., 2000. The Eemian stratotype locality at Amersfoort in the central Netherlands: a reevaluation of old and new data. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.): The Eemian - local sequences, global perspectives. Geologie en Mijnbouw / Netherlands Journal of Geosciences 79: 197216 (this issue).Google Scholar
Coope, G.R., 2000. The climatic significance of coleopteran assemblages from the Eemian deposits in southern England. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.): The Eemian - local sequences, global perspectives. Geologie en Mijnbouw / Netherlands Journal of Geosciences 79: 257267 (this issue).Google Scholar
De Gans, W., Beets, D.J. & Centineo, M.C., 2000. Late Saalian and Eemian deposits in the Amstradam glacial basin. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.): The Eemian - local sequences, global perspectives. Geologie en Mijnbouw / Netherlands Journal of Geosciences 79: 147160 (this issue).Google Scholar
Dodonov, A.E., Tchepalyga, A.L., Mihailescu, C.D., Zhou, L.P., Markova, A.K., Trubikhin, V.M., Simakova, A.N. & Konikov, E.G., 2000. Last-interglacial records from central Asia to the northern Black Sea shoreline: stratigraphy and correlation. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.):The Eemian - local sequences, global perspectives. Geologie en Mijnbouw/Netherlands Journal of Geosciences 79: 303311 (this issue).Google Scholar
Drescher-Schneider, R., 2000. The Riss-Würm interglacial from west to east in the Alps: an overview of the vegetational succession and climatic development. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.):The Eemian - local sequences, global perspectives. Geologie en Mijnbouw / Netherlands Journal of Geosciences 79: 233239 (this issue).Google Scholar
Haesaerts, P. & Mestdagh, H., 2000. Pedosedimentary evolution of the last interglacial and early glacial succession in the European loess belt from Belgium to central Russia. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.): The Eemian - local sequences, global perspectives. Geologie en Mijnbouw / Netherlands Journal of Geosciences 79: 313324 (this issue).Google Scholar
Holland, C.H., 1998. Chronostratigraphy (global standard strati-graphy): a personal perspective. In: Doyle, P. & Bennett, M.R. (eds.): Unlocking the stratigraphical record. J. Wiley & Sons (Chichester): 383392.Google Scholar
Iversen, J., 1958. The bearing of glacial and interglacial epochs on the formation and extinction of plant taxa. Uppsala Universitetet Ársskrift 6: 210215.Google Scholar
Jessen, K. & Milthers, V., 1928. Stratigraphical and palaeontological studies of interglacial freshwater deposits in Jutland and north-west Germany. Danmarks Geologisk Undersogelse, II Raekke 48.Google Scholar
Litt, T., Junge, F.W. & Böttger, T., 1996. Climate during the Eemian in north-central Europe - a critical review of palaeobotanical and stable isotope data from central Germany. Vegetation History and Archaeobotany 5: 247256.CrossRefGoogle Scholar
Loutré, M.F. & Berger, A. (in press). Stage 11 as an analogue for the present interglacial. In: Van Kolfschoten, Th., Knudsen, K.L. & Gibbard, P.L. (eds.): The Eemian interglacial: a global perspective. Journal of Global and Planetary Change.Google Scholar
Markova, A.K., 2000. The Mikulino (= Eemian) mammal faunas of the Russian Plain and Crimea. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.): The Eemian - local sequences, global perspectives. Geologie en Mijnbouw / Netherlands Journal of Geosciences 79: 293301 (this issue).Google Scholar
Maslin, M. & Tzedakis, P.C., 1996 Sultry last interglacial gets sudden chill. Eos Transactions (American Geophysical Union) 77: 353345.CrossRefGoogle Scholar
Meijer, T., 1998. References of relevant publications about Eemian deposits: a base for a European Eemian bibliography. SEQS Symposium (Kerkrade, the Netherlands, 1998): 126 pp.Google Scholar
Meijer, T. & Preece, R.C., 2000. A review of the occurrence of Corbicula in the Pleistocene of North-West Europe. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.): The Eemian - local sequences, global perspectives. Geologie en Mijnbouw / Netherlands Journal of Geosciences 79: 241255 (this issue).Google Scholar
Müller, H., 1974. Pollenanalytische Untersuchungen und Jahresschichtenzählungen an der eemzeitlichen Kieselgur von Bispingen/Luhe. Geologisches Jahrbuch A 21: 149169.Google Scholar
Richmond, G.M., 1996. The INQUA-approved provisional Lower-Middle Pleistocene boundary. In: Turner, C. (ed.): The early middle Pleistocene in Europe. Balkema (Rotterdam): 319326.Google Scholar
Robertsson, A.-M., 2000. The Eemian interglacial in Sweden, and comparison with Finland. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.): The Eemian - local sequences, global perspectives. Geologie en Mijnbouw / Netherlands Journal of Geosciences 79: 325333 (this issue).Google Scholar
Salvador, A. (ed.), 1994. International stratigraphic guide (2nd ed.). International Union of Geological Sciences & Geological Society of America (Boulder): 214 pp.Google Scholar
Sanchez Goñi, M.F., Turon, J.-L., Eynaud, F., Shackleton, N.J. & Cayre, O., 2000. Direct land/sea correlation of the Eemian, and its comparison with the Holocene: a high-resolution palynological record off the Iberian margin. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.): The Eemian - local sequences, global perspectives. Geologie en Mijnbouw / Netherlands Journal of Geosciences 79: 345354 (this issue).Google Scholar
Seidenkrantz, M.-S., Kristensen, P. & Knudsen, K. L., 1995. Marine evidence for climatic instability during the last interglacial in shelf records from northwest Europe. Journal of Quaternary Science 10: 7782.CrossRefGoogle Scholar
Seidenkrantz, M.-S., Knudsen, K.L. & Kristensen, P., 2000. Marine late Saalian to Eemian environments and climatic variability in the Danish shelf area. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.): The Eemian - local sequences, global perspectives. Geologie en Mijnbouw / Netherlands Journal of Geosciences 79: 335343 (this issue).Google Scholar
Speleers, B., 2000. The relevance of the Eemian for the study of the Palaeolithic occupation of Europe. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.): The Eemian - local sequences, global perspectives. Geologie en Mijnbouw / Netherlands Journal of Geosciences 79: 283291 (this issue).Google Scholar
Turner, Ch., 2000. The Eemian interglacial in the North European plain and adjacent areas. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.): The Eemian - local sequences, global perspectives. Geologie en Mijnbouw / Netherlands Journal of Geosciences 79: 217231 (this issue).Google Scholar
Tzedakis, P.C., 2000. Vegetation variability in Greece during the last interglacial. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.): The Eemian - local sequences, global perspectives. Geologie en Mijnbouw / Netherlands Journal of Geosciences 79: 355367 (this issue).Google Scholar
Van Kolfschoten, Th., 2000. The Eemian mammal fauna of central Europe. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.): The Eemian - local sequences, global perspectives. Geologie en Mijnbouw / Netherlands Journal of Geosciences 79: 269281 (this issue).Google Scholar
Van Leeuwen, R.J.W., Beets, D.J., Bosch, J.H.A., Burger, A.W., Cleveringa, P., Van harten, D., Herngreen, G.F.W., Kruk, R.W., Langereis, C.G., Meijer, T., Pouwer, R. & De Wolf, H., 2000. Stratigraphy and intergrated facies analysis of the Saalian and Eemian sediments in the Amsterdam-Terminal borehole, the Netherlands. In: Van Kolfschoten, Th. & Gibbard, P.L. (eds.): The Eemian - local sequences, global perspectives. Geologie en Mijnbouw / Netherlands Journal of Geosciences 79: 161196 (this issue).Google Scholar
Woldstedt, P., 1962. Über die Benennung einiger Unterabtielungen des Pleistozäns. Eiszeitalter und Gegenwart 3: 1418.Google Scholar
Zagwijn, W.H., 1963. Pleistocene stratigraphy in the Netherlands based on changes in vegetation and climate. Verhandelingen Nederlands Geologisch Mijnbouwkundig Genootschap, Geologische Serie 21: 173196.Google Scholar
Zagwijn, W.H., 1996. An analysis of Eemian climate in western and central Europe. Quaternary Science Reviews 15: 451469.CrossRefGoogle Scholar
Zeuner, F.E., 1935. The Pleistocene chronology of central Europe. Geological Magazine 72: 350376.CrossRefGoogle Scholar
Zeuner, F.E., 1959. The Pleistocene period. Hutchinson (London): 447 pp.Google Scholar