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Palaeoecology and Archaeology of the Kärlich–Seeufer Open-Air Site (Middle Pleistocene) in the Central Rhineland, Germany

Published online by Cambridge University Press:  20 January 2017

Sabine Gaudzinski ,
Felix Bittmann ,
Wolfgang Boenigk ,
Manfred Frechen  and
Thijs Van Kolfschoten
Sabine Gaudzinski
Affiliation:
Forschungsbereich Altsteinzeit des Römisch-Germanischen-Zentralmuseums Mainz, Schloss Monrepos, 56567, Neuwied, Germany
Felix Bittmann
Affiliation:
Institut für Palynologie und Quartärwissenschaften, Universität Göttingen, Wilhelm-Weber-Strasse 2, 37073, Göttingen, Germany
Wolfgang Boenigk
Affiliation:
Geologisches Institut der Universität zu Köln, Zülpicher Strasse 49a, 50674, Köln, Germany
Manfred Frechen
Affiliation:
Geologisches Institut der Universität zu Köln, Zülpicher Strasse 49a, 50674, Köln, Germany
Thijs Van Kolfschoten
Affiliation:
Faculteit der Pre- en Protohistorie, Rijksuniversiteit Leiden, Postbus 9515, 2300 RA, Leiden, The Netherlands
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Abstract

The Kärlich–Seeufer archaeological site in Germany's central Rhineland was excavated between 1980 and 1992. The site provides evidence for hominid activity during a Middle Pleistocene interglaciation known up to now only from the Kärlich clay pit and therefore defined as the Kärlich Interglaciation, which is considered to be post-Cromer IV and pre-Holstein (sensu stricto) in age. The site is characterized by Acheulean artifacts, a fauna dominated by Elephas (Palaeoloxodon) antiquus, and a unique and outstanding preservation of wooden and other palaeobotanical remains. Assuming all finds are associated, the site previously was interpreted as an elephant hunting camp with a wooden structure, together with wood and bone implements preserved in situ. Recent analysis of the same features has shown that the site can also be interpreted as a reworked archaeological sample. Hominid occupation occurred in the vicinity of a small lake with prevailing meso-oligotrophic conditions. Expanding boreal forests and fen vegetation characterized the landscape.

Type
Research Article
Information
Quaternary Research , Volume 46 , Issue 3 , November 1996 , pp. 319 - 334
Copyright
University of Washington

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References

Anzidei, A.P., and Ruffo, M., (1985). The Pleistocene deposit of Rebib-bia—Casal de'Pazzi (Rome—Italy). In “Papers in Italian Archaeology: The Human Landscape” (Malone, C., and Stoddart, S., Eds.), Vol. IV, pp. 6985. BAR International Series 243, Oxford.Google Scholar
Anzidei, A.P., and Arnoldus-Huyzendveld, A., (1992). The Lower Palaeolithic site of La Polledrara di Cecanibbio (Rome, Italy). In “New Developments in Italian Archaeology” (Herring, E., Whitehouse, R., and Wilkins, J., Eds.), pp. 141153. Arcordia Research Centre, London.Google Scholar
Beaulieu, J.-L., de, and Reille, M., (1995). Pollen records from the Velay craters: A review and correlation of the Holsteinian Interglacial with isotopic stage 11. Mededelingen Rijks Geologische Dienst 52, 5970.Google Scholar
Biddittu, I., Cassoli, P.F., Radicati di Brozolo, F., Segre, A.G., Segre Naldini, E., and Villa, I., (1979). Anagni, a K–Ar dated Lower and Middle Pleistocene site, Central Italy: Preliminary report. Quaternaria 21, 5371.Google Scholar
Bittmann, F., (1992). The Kärlich Interglacial, Middle Rhine region, Germany: Vegetation history and stratigraphic position. Vegetation History Archaeobotany 1, 243258.Google Scholar
Bittmann, F., (1995). Vegetationsgeschichtliche Untersuchungen an mittel-und jungpleistozänen Ablagerungen des Neuwieder Beckens (Mittel-rhein). Jahrbuch des Römisch-Germanischen Zentralmuseums Mainz 38, 83190.Google Scholar
Bittmann, F., and Müller, H., (1996). The Kärlich Interglacial site and its correlation with the Bilshausen sequence. In “The Early Middle Pleistocene in Europe” (Turner, C., Ed.), pp. 187193. Balkema, Rotterdam.Google Scholar
Boenigk, W., Heye, D., Schirmer, W., and Brunnacker, K., (1974). Paläomag-netische Messungen an vielgliedrigen Quartär-Profilen (Kärlich/Mittel-rhein und Bad Soden i. Taunus). Mainzer Naturwissenschaftliches Archiv 12, 159168.Google Scholar
Boenigk, W., and Frechen, M., (in press a). Zur Geologie von Kärlich– Seeufer. Mainzer Geowissenschaftliche Mitteilungen.Google Scholar
Boenigk, W., and Frechen, M., (in press b). Zur Geologie von Kärlich-Hauptwand. Jahrbuch des Römisch-Germanischen Zentralmuseums Mainz.Google Scholar
Bogaard, C.v.d., Bogaard, P.v.d., and SchminckeH, U., (1989). Quartär-geologisch-Tephrostratigraphische Neuaufnahme und Interpretation des Pleistozänprofils Kärlich. Eiszeitalter und Gegenwart 39, 6286.Google Scholar
Bogaard, P.v.d., and Schmincke, H.-U., (1990). Die Entwicklungs-geschichte des Mittelrheinraumes und die Eruptionsgeschichte des Os-teifel-Vulkanfeldes. In “Rheingeschichte zwischen Mosel und Maas” (Schirmer, W., Ed.), pp. 166190. Deuqua-Führer 1, Hannover.Google Scholar
Bombien, H., (1987). “Geologisch-petrographische Untersuchungen zur quartären (früh-Saale-zeitlichen) Flußgeschichte im nördlichen Harzvor-land.” Mitteilungen des Geologischen Instituts der Universität Hannover 26, Hannover.Google Scholar
Boschian, G., (1993). Castel di Guido-Scavi 1980–1991. Atti della XXX Riunione Scientifica dell’ Istituto Italiano di Preistoria e Protostoria, 167178.Google Scholar
Bosinski, G., Brunnacker, K., Lanser, K.P., Stephan, S., Urban, B., and Würges, K., (1980). Altpaläolithische Funde von Kärlich, Kreis Mayen-Koblenz (Neuwieder Becken). Archäologisches Korrespondenzblatt 10, 295314.Google Scholar
Bosinski, G., (1982). Die Ausgrabungen in Kärlich/Neuwieder Becken. Beil. Jahresber. Gerda-Henkel-Stiftung 1982, 920.Google Scholar
Brunnacker, K., Streit, R., and Schirmer, W., (1969). Der Aufbau des Quarta¨r-Profils von Kärlich/Neuwieder Becken (Mittelrhein). Mainzer Naturwissenschaftliches Archiv 8, 102133.Google Scholar
Cassoli, P.F., Lefèvre, D., Piperno, M., Raynal, J.P., and Tagliacozzo, A., (1993). Una paleosuperficie con resti de Elephas (Palaeoloxodon) anti-quus e industria acheuleana nel sito di Notachirico (Venosa, Basilicata). Atti della XXX Riunione scientifica dell’ Istituto Italiano di Preistoria e Protostoria, 101116.Google Scholar
Erd, K., (1973). Vegetationsentwicklung und Biostratigraphie der Dömnitz- Warmzeit (Fuhne/Saale 1) im Profil von Pritzwalk/Prignitz. Abhand-lungen des Zentralen Geologischen Instituts 18, 948.Google Scholar
Erfurt, J., and Mania, D., (1990). Zur Paläontologie des jungpleistozänen Waldelefanten von Gröbern, Kreis Gräfenhainichen. In “Neumark— Gröbern. Beiträge zur Jagd des mittelpaläolithischen Menschen” (Mania, D., Thomae, M., Litt, T., and Weber, T., Eds.), pp. 215224. Deutscher Verlag der Wissenschaften, Berlin.Google Scholar
Frechen, M., (1995). Eruptionsgeschichte und Deckschichtfolge der Wan-nenköpfe-Vulkangruppe in der Osteifel. Eiszeitalter und Gegenwart 45, 107127.Google Scholar
Gamble, C. S., (1986). “The Palaeolithic Settlement of Europe.” Cambridge Univ. Press, Cambridge.Google Scholar
Gaudzinski, S., (in press). Kärlich–Seeufer. Untersuchungen zu einer altpa-läolithischen Fundstelle im Neuwieder Becken (Rheinland/Deutschland). Jahrbuch des Römisch-Germanischen Zentralmuseums Mainz.Google Scholar
Goren-Inbar, N., Belitzky, S., Verosub, K., Werker, E., Kislev, M., Hei-mann, A., Carmi, I., and Rosenfeld, A., (1992). New discoveries at the Middle Pleistocene Acheulian site of Gesher Benot Ya'aqov, Israel. Quaternary Research 38, 117128.CrossRefGoogle Scholar
Janczyk-Kopikowa, Z., (1975). Flora interglacjalu mazowieckiego w Ferdy-nandowie. Biuletyn Instytutu Geologicznego 290, 596.Google Scholar
Howell, F.C., Butzer, K.W., Freeman, L.G., and Klein, R. G., (1995). Observations on the Acheulean occupation site of Ambrona (Soria Province, Spain). Jahrbuch des Römisch-Germanischen Zentralmuseums Mainz 38, 3382.Google Scholar
Klein, R. G., (1987). Reconstructing how early people exploited animals: Problems and prospects. In “The Evolution of Human Hunting” (M. H. and D. V. Nitecki, Eds.), pp. 1145. Plenum, New York.Google Scholar
Klostermann, J., (1995). Nordrhein-Westfalen. In “Das Quartär Deutsch-lands” (Benda, L., , Ed.), pp. 5994. Gebrüder Borntraeger, Berlin, Stuttgart.Google Scholar
Kolfschoten, T. v., (1990). The evolution of the Mammal Fauna in the Netherlands and the Middle Rhine Area (Western Germany) during the Late Middle Pleistocene. Mededelingen Rijks Geologische Dienst 43, 169.Google Scholar
Kolfschoten, T. v., and Turner, E., (1996). Early Middle Pleistocene mammalian faunas from Kärlich and Miesenheim I and their biostratigraphical implications. In “The Early Middle Pleistocene in Europe” (Turner, C., Ed.), pp. 227253. Balkema, Rotterdam.Google Scholar
Kröger, K., Bogaard, P.v.d., Bittmann, F., and Turner, E., (1991). Der Fundplatz Kärlich–Seeufer. Neue Untersuchungen zum Altpaläolithikum im Rheinland. Jahrbuch des Römisch-Germanischen Zentralmuseums Mainz 35, 111135.Google Scholar
Kryzyszkowski, D., (1995). An outline of the Pleistocene Stratigraphy of the Kleszczów Graben, Belchatów outcrop, Central Poland. Quaternary Science Review 14, 6183.Google Scholar
Kulemeyer, J., (1988). “Die alt- und mittelpaläolithischen Funde von Kär-lich.” Ph.D. dissertation, Unversität zu Köln.Google Scholar
Linke, G., Katzenberger, O., and Grün, R., (1986). Description and ESR dating of the Holstein Interglaciation. Quaternary Science Review 4, 319331.Google Scholar
Lippolt, H.J., Fuhrmann, U., and Hradetzky, H., (1986). 40Ar/39Ar age determinations on sanidines of the Eifel Volcanic Field (FRG): Constrains on age and duration of a Middle Pleistocene cold period. Chemical Geology 59, 187204.Google Scholar
Lyman, R. L., (1994). “Vertebrate Taphonomy.” Cambridge Univ. Press, Cambridge.Google Scholar
Mania, D., (1993). Die Terrassen-Travertin-Sequenz von Bilzingsleben. Ein Beitrag zur Stratigraphie des Mittel- und Jungpleistozäns im Elbe-Saale-Gebiet. Ethnographisch-Archäologische Zeitschrift 34, 554575.Google Scholar
Mania, D., and Weber, T., (Eds.), (1986). “Bilzingsleben III. Homo erectus—seine Kultur und seine Umwelt.” Deutscher Verlag der Wis-senschaften, Berlin.Google Scholar
Menke, B., (1968). Beiträge zur Biostratigraphie des Mittelpleistozäns in Norddeutschland. Meyniana 18, 3542.Google Scholar
Miller, G.H., and Mangerud, J., (1986). Aminostratigraphy of European marine interglacial deposits. Quaternary Science Reviews 4, 215278.Google Scholar
Razi Rad, M., (1976). “Schwermineraluntersuchungen zur Quartär-Strati-graphie am Mittelrhein.” Sonderveröffentlichungen des Geologischen Institutes der Universität zu Köln 28, Köln.Google Scholar
Rzechowski, J., (1996). The Ferdynandowian Interglacial and its stratigraph-ical position in the Middle Pleistocene of Europe. In “The Early Middle Pleistocene in Europe” (Turner, C., Ed.), pp. 279293. Balkema, Rotterdam.Google Scholar
Santonja, M., and Villa, P., (1990). The Lower Palaeolithic of Spain and Portugal. Journal of World Prehistory 4, 4593.CrossRefGoogle Scholar
Sarntheim, M., Stremme, H.E., and Mangini, A., (1986). The Holstein Interglaciation: Time-stratigraphic position and correlation to stable isotope stratigraphy of deep sea sediment. Quaternary Research 26, 283298.Google Scholar
Schick, K. D., (1986). “Stone Age Sites in the Making.” BAR International Series 319, Oxford.Google Scholar
Schirmer, W., (1990). Ka¨rlich—Forschungsstand 1990. In “Rhein-geschichte zwischen Mosel und Maas” (Schirmer, W., Ed.), pp. 6067. Deuqua-Führer 1, Hannover.Google Scholar
Schwarcz, H.P., and Grün, R., (1988). Comment on Sarntheim, M., Stremme, H. E., and Mangini, A., “The Holstein Interglaciation: Time-strati-graphic position and correlation to stable isotope stratigraphy of deep-sea sediments.” Quaternary Research 29, 7579.CrossRefGoogle Scholar
Segre, A.G., Biddittu, I., and Guadagnoli, F., (1987). Nuovi dati sul giaci-mento del Paleolitico Inferiore di Anagni-Fontana Ranuccio. Archeologia Laziale 8, 239243.Google Scholar
Sejrup, H.P., and Knudsen, K. L., (1993). Paleoenvironment and correlations of interglacial sediments in the North Sea. Boreas 22, 223235.Google Scholar
Shipman, P., and Rose, J., (1983). Evidence of butchery and hominid activities at Torralba and Ambrona: An evaluation using microscopic techniques. Journal of Archaeological Science 10, 465474.Google Scholar
Spicer, R. A., (1989). The formation and interpretation of plant fossil assemblages. In “Advances in Botanical Research” (Callow, J. A., Ed.), pp. 95191. Academic Press, London, San Diego.Google Scholar
Steppan, K. H., (1993). Osteologische und taphonomische Untersuchungen an Tierknochenfunden aus der mesolithischen Freilandfundstelle Rot-tenburg-Siebenlinden I, Lkr. Tübingen. Zeitschrift für Archäologie 27, 916.Google Scholar
Thieme, H., and Maier, R., (Eds.) (1995). “Archäologische Ausgrabungen im Braunkohlentagebau Schöningen, Landkreis Helmstedt.” Verlag Hahnsche Buchhandlung, Hannover.Google Scholar
Thieme, H., and Veil, S., (1985). Neue Unterscuhungen zum eemzeitlichen Elefanten-Jagdplatz Lehringen, Ldkr. Verden. Die Kunde 36, 1158.Google Scholar
Urban, B., (1978). Die Stellung des Kärlicher Brockentuffs im Kärlicher Interglazial am Mittelrhein. In “Beiträge zur Quartär- und Landschafts-forschung” (Nagl, H., Ed.), pp. 649654. Festschrift y. Fink, Wien.Google Scholar
Urban, B., (1980). Paläoökologische Untersuchungen zum Krefeld-Inter-glazial am Niederrhein. Eiszeitalter und Gegenwart 30, 7388.Google Scholar
Urban, B., (1983). Biostratigraphic correlation of the Kärlich Interglacial, Northwestern Germany. Boreas 12, 8390.Google Scholar
Villa, P., (1990). Torralba and Aridos: Elephant exploitation in Middle Pleistocene Spain. Journal of Human Evolution 19, 299309.Google Scholar
Zagwijn, W. H., (1985). An outline of the Quaternary stratigraphy of the Netherlands. Geologie en Mijnbouw 64, 1724.Google Scholar
Zagwijn, W. H., (1992). The beginning of the Ice Age in Europe and its major subdivision. Quaternary Science Reviews 11, 583592.Google Scholar