OJG  Vol.5 No.11 , November 2015
The Last 15,000 Years: Climate-Controlled and “Rare-Event”-Triggered/Rise and Fall of Holocene Cultures in the Near/Middle East and in Central Europe—Evidence and Background
ABSTRACT
Pushed by the results of a preceding publication on the possibly Quaternary Jebel Waqf as Suwwan Meteorite Crater, Jordan [5], where an amazing coincidence of Rapid Climate Changes (RCCs) with Rise and Fall of Neolithic and Bronze Age Cultures became evident for the Near/Middle East, this paper deals with the same subject, however, relating to the complete Holocene period in the same area and, additionally, in Central Europe as well. By application of modern climatic data [6] comprising isotope analysis (δ18O, 14C, 10Be), acid and aerosol events, and greenhouse gases (CO2, CH4) Greenland ice cores as well as other astro-/geophysical and geological parameters, an overwhelming coincidence/relation/interdependence of both natural and cultural evidences becomes obvious throughout the last 15,000 years across the Northern Hemisphere. Apart from solar output and other astrophysical processes, most important climate- and Earth-related parameters are Mega-Volcanism (i.e.Santorini Greece: ~3640 yr cal. B. P.), Impact Events (i.e. during Mesolithic: ~9600 yr cal. B. P), rapid oceanic current change (DO-Events), and Plate Tectonics (possibly Atlantis-Event: ~11,500 yr cal. B.P. = Pleistocene/Holocene boundary). The most essential parameter is a significant temperature change related to more or less restricted latitude realms of the Northern Hemisphere. Thus, glacier advance/retreat controls the mobility of peoples (i.e. Nations' Migration, Teutonic Empires) and the access to ore deposits (Au, Ag, Cu, Sn, Zn, Pb, Fe) located in Alpine Mountain Ranges (i.e. End-Neolithic, Early Bronze Age). Myths like the Gilgamesh Epos and John Apocalypse convincingly reveal realistic contents relating to natural hazards like tsunamis, impact and flooding events. They unmisunderstandably make obvious that Myths may provide valuable contributions, especially to Geosciences. Some of the controlling parameters interrelate with others or present a kind of hierarchy: Mega-Volcanism/impact events à ejecta à wildfires, heat storms à cosmic winter, sint winter à stop of photosynthesis à mass extinction environmental pollution à greenhouse effects. Significant events (21 cases in total) occurred on i.e.

Cite this paper
Schneider, W. and Salameh, E. (2015) The Last 15,000 Years: Climate-Controlled and “Rare-Event”-Triggered/Rise and Fall of Holocene Cultures in the Near/Middle East and in Central Europe—Evidence and Background. Open Journal of Geology, 5, 743-769. doi: 10.4236/ojg.2015.511065.
References
[1]   Salameh, E., Khoury, H. and Schneider, W. (2006) Jebel Waqf as Suwwan, Jordan, A Possible Impact Crater—A First Approach. Zeitschrift Deutscher Gesellschaft für Geowissenschaften, 157, 319-325. http://dx.doi.org/10.1127/1860-1804/2006/0157-0319

[2]   Salameh, E., Khoury, H., Reimold, W.U. and Schneider, W. (2008) The First Large Meteorite Impact Structure Discovered in the Middle East: Jebel Waqf as Suwwan, Jordan. Meteoritics & Planetary Science, 43, 1681-1690. http://dx.doi.org/10.1111/j.1945-5100.2008.tb00636.x

[3]   Salameh, E., Khoury, H., Reimold, W.U., Schneider, W. and Kenkmann, T. (2008) First Large Meteorite Impact Structure Discovered in the Middle East: Jebel Waqf as Suwwan, Jordan. Large Meteorite Impact Planetary IV, Parys, LPI No. 1423, Paper ID: 3106.

[4]   Kenkmann, T., Khirfan, M., Reimold, W.U., Salameh, E., Konsul, K. and Khoury, H. (2009) The Structure of Jebel Waqf as Suwwan Impact Crater, Jordan, as Revealed from Field Analysis, Remote Sensing Mapping, and Interpretation of Geophysical Data. The 1st Arab Impact Cratering and Astrogeology Conference, Amman, 9-11 November 2009, Abstract Volume, 32-37.

[5]   Schneider, W. and Salameh, E. (2014) Uncommon and Impact-Suspicious Geologic Phenomena across Jordan and Adjacent Area, Arabian Plate. Open Journal of Geology, 4, 680-717.
http://dx.doi.org/10.4236/ojg.2014.412051

[6]   Mayewski, P.A., Rohling, E.E., Stager, J.C., Karlén, W., Maasch, K.A., Meeker, L.D., et al. (2004) Holocene Climate Variability. Quaternary Research, 62, 243-255.
http://dx.doi.org/10.1016/j.yqres.2004.07.001

[7]   Schott, A. (1984) Das Gilgamesch-Epos. No. 7235, Philipp Reclam Jun., Stutgart, 122 p.

[8]   Jens, W. (1987) Das A und das O. Die Offenbarung des Johannes. Radius-Verlag, Stuttgart, 93 p.

[9]   Hoyle, F. (1993) The Origin of the Universe and the Origin of Religion. Moyer Bell, London, 135 p.

[10]   Chappellaz, J., Blumier, T., Raynaud, D., Barnola, J.M., Schwander, J. and Stauffert, B. (1993) Synchronous Changes in Atmospheric CH4 and Greenland Climate between 40 and 8 kyr BP. Nature, 236, 443-444. http://dx.doi.org/10.1038/366443a0

[11]   Rahmstorf, S. and Schellnhuber, H.J. (2007) Der Klimawandel. 4. Aufl., C.H. Beck, München, 144 p.

[12]   Groves, C. (2004) Die Datierung der Vergangenheit. In: Burenhult, G., Ed., Menschen der Urzeit, Karl Müller, Koln, 74-75.

[13]   Hammer, C.U., Clausen, H.B. and Dansgaard, W. (1980) Greenland Ice-Sheet Evidence of Post-Glacial Volcanism and Its Climatic Impact. Nature, 288, 230-235. http://dx.doi.org/10.1038/288230a0

[14]   Herron, M.M. and Langway Jr., C.C. (1985) Chloride, Nitrate and Sulfate in the Dye 3 and Camp Century, Greenland Ice Cores. In: Langway, C.C., Oeschger, H. and Dansgaard, W., Eds., Greenland Ice Core: Geophysics, Geochemistry, and the Environment, Geophysical Monograph Series, Vol. 33, John Wiley & Sons, Hoboken, 77-84. http://dx.doi.org/10.1029/gm033p0077

[15]   Owen-Smith, N. (1987) Pleistocene Extinctions: the Pivotal Role of Megaherbivores. Paleobiology, 13, 351-362.

[16]   Dubrovo, I. (1990) The Pleistocene Elephants of Sibiria. In: Agenbroad, L.D., Mead, J.I. and Nelson, L., Eds., Megafauna and Man, Northern Arizona University Press, Flagstaf, 1-8.

[17]   Chalmers, R.O., Henderson, E.P. and Mason, B. (1976) Occurrence, Distribution, and Age of Australian Tektites. Smithsonian Contributions to the Earth Sciences, 17, 1-46.
http://dx.doi.org/10.5479/si.00810274.17.1

[18]   Phan, C.T. (Ed.) (1990) Geology of Cambodia, Lao and Vietnam. 2nd Edition, Geological Survey of Vietnam, Hanoi, 103 p.

[19]   Suess, H.E. (1988) Radiocarbon in Tree Rings. In: Castagnoli, G.C., Ed., Solar-Terrestrial Relationships and Earth Environment in the Last Millenia, Societa Italia Fisica, Bologna, 135-143.

[20]   Gentner, W. and Wagner, G.A. (1969) Altersbestimmungen an Riesglasern und Moldaviten. Geologica Bavarica, 61, 296-303.

[21]   Clube, V. and Napier, B. (1990) The Cosmic Winter. Blackwell, Oxford.

[22]   Napier, W.M. (1989) Terrestrial Catastrophism and Galactic Cycles. In: Clube, S.V.M., Ed., Catastrophes and Evolution, Cambridge University Press, Cambridge, 133-167.

[23]   Price, N.J. (2001) Major Impact and Plate Tectonics. Routledge, London, 354 p.

[24]   Milankovitch, M. (Ed.) (1930) Mathematische Klimalehre und Astronomische Theorie der Klimaschwankungen. Borntraeger, Berlin.

[25]   Burenhult, G. (2004) Radiokarbon-Methode: Schlüssel zur Vergangenheit. In: Burenhult, G., Ed., Menschen der Urzeit, Karl Müller, Koln, 463 p.

[26]   Koch, H.P. (2000) Sintflut. Kremayr & Scheriau, Wien-München, 336 p.

[27]   da Costa, K. (2004) Die Natuf-Periode: Anfange sesshaften Lebens. In: Burenhult, G., Ed., Menschen der Urzeit, Karl Müller, Koln, 234-236.

[28]   Liljegren, R. (2004) Tiere der Europaischen Eiszeit. In: Burenhult, G., Ed., Menschen der Urzeit, Karl Müller, Koln, 86-93.

[29]   Rowly-Conwy, P. (2004) Abu Hureyra: Die ersten Bauern der Welt. In: Burenhult, G., Ed., Menschen der Urzeit, Karl Müller, Koln, 239-241.

[30]   Scholl, M. and Risch, H. (1976) Oxygen- and Carbon Isotope Analysis on Planktonic Foraminifera of Core VA 01-188 P, Southern Red Sea. Geologisches Jahrbuch. Reihe D, 17, 15-32.

[31]   Friedman, G.M. (1972) Significance of Red Sea in Problems of Evaporites and Basinal Limestones. AAPG Bulletin, 56, 1072-1086.

[32]   Müller, H. and Schleiermacher, F. (1994) Plato, Samtliche Werke. Timaios, K., et al., Eds., Vol. 4, Rowohlt Enzyklopadie, Reinbek.

[33]   Rowly-Conwy, P. (2004) Steinzeitliche Jager, Sammler und Bauern in Europa-Vom Sammler zum Bauern -und Muschelabfalle: Die Müllhalden der Geschichte. In: Burenhult, G., Ed., Menschen der Urzeit, Karl Müller, Koln, 271-279.

[34]   Palmqvist, L. (2004) Der grosse Ubergang. Die ersten Bauern der westlichen Welt. In: Burenhult, G., Ed., Menschen der Urzeit, Karl Müller, Koln, 229-233.

[35]   Cheddadi, R., Rossignol-Strick, M. and Fontugne, M. (1991) Eastern Mediterranean Paleoclimates from 26 to 5 ka B.P. Documented by Pollen and Isotopic Analysis of a Core in the Anoxic Bannock Basin. Marine Geology, 100, 53-66. http://dx.doi.org/10.1016/0025-3227(91)90224-R

[36]   Surenian, R. (1989) Shock Metamophism in the Koefels Structure, Austria. The 52nd Annual Meetings of the Meteoritical Society, Vienna, 31 July-4 August, 234.

[37]   Tollmann, A. and Tollmann, E. (1993) Und die Sintflut gab as doch. Vom Mythos zur Historischen Wahrheit. Droemer Knaur, München, 560 p.

[38]   Gebel, H.G.K. (2004) Central to What? The Centrality Issue of the LPPNB Mega-Site Phenomenon in Jordan. In: Bienert, H.-D., Gebel, H.G.K. and Neef, R., Eds., Central Settlements in Neolithic Jordan, Studies in the Early Near Eastern Production, Subsidence, and Environment 5, ex oriente, Berlin, 1-19.

[39]   Rollefson, G.O. (2004) Ain Ghazal: Die Grosste Bekannte Neolithsche Siedlung. In: Burenhult, G., Ed., Menschen der Urzeit, Karl Müller, Koln, 248-250.

[40]   Palmqvist, L. (2004) Kulte Bei Catal Hüyük. In: Burenhult, G., Ed., Menschen der Urzeit, Karl Müller, Koln, 242-247.

[41]   Liljegren, R. (2004) Die Domestizierung von Tieren. In: Burenhult, G., Ed., Menschen der Urzeit, Karl Müller, Koln, 280-287.

[42]   Alley, R.B., Mayewski, P.A., Sowers, T., Stuiver, M., Taylor, K.C. and Clark, P.U. (1997) Holocene Climatic Instability: A Prominent Widespread Event 8200 Years Ago. Geology, 25, 483-486. http://dx.doi.org/10.1130/0091-7613(1997)025<0483:HCIAPW>2.3.CO;2

[43]   Stauble, H. (2005) Hauser und Absolute Datierung der Altesten Bandkeramik. Universitatsforsch. zur Prahistorischen Archaologie, Bd. 117, Bonn, 292 p.

[44]   Dimitrova, E. and Kunov, A. (1974) Petrology of Diabase-Phyllitoid Formation in the Western Balkan Mts. Bulgarian Academy of Sciences, Sofia, 365-378.

[45]   Christensen, A.-M., Holm, P.M., Schüssler, U. and Petrasch, J. (2006) Indications of a Major Neolithic Trade Route? An Archaeometric, Geochemical and Sr, Pb-Isotope Study on amphibolithic Raw Material from present Day Europe. Applied Geochemistry, 21, 1635-1655.
http://dx.doi.org/10.1016/j.apgeochem.2006.07.009

[46]   Prostredink, J., Sida, P., Srein, V., Sreonova, D. and Stastny, M. (2005) Neolithic Quarrying in the Foothills of the Jizera Mts. and the Dating Thereof. Archeologicke Rodzledy, 57, 477-492.

[47]   Schwarz-Mackensen, G. (1983) Die Frühbandkeramische Siedlung Bei Eitsum, LKr. Wolfenbüttel. In: Wegner, G., Ed., Frühe Bauernkulturen in Niedersachsen, Oldenburg, 23-36.

[48]   Schneider, W. (2015) Das Rohmaterial Bandkeramischer FelsgesteinsgerAte und Keramik der Grabung Esbeck-1. In: Richter, P.D. and Schwarz-Mackensen, G., Eds., Bandkeramik an der Peripherie. Erdwerk und Siedlung von Esbeck-1 (Stadt SchOningen), Materialhefte zur Urund Frühgeschichte Niedersachsen, Bd 45, Marie Leidor GmBH, Rahden/ Westfalen, 323-346.

[49]   Schwarz-Mackensen, G. and Schneider, W. (1983) Wo liegen die Hauptliefergebiete für das Rohmaterial Donaulan-discher Steinbeile und -axte in Mitteleuropa? Archaologisches Korrespondenzblatt, 13, 305-314.

[50]   Schwarz-Mackensen, G. and Schneider, W. (1986) Petrographie und Herkunft des Rohamaterials Neolithischer Steinbeile und -axte im Nardlichen Harzvorland. Archaologisches Korrespondenzblatt, 16, 29-44.

[51]   Schwarz-Mackensen, G. and Schneider, W. (1987) The Raw Material of Neolithic Adzes and Axes in Central Europe: Petrography and Provenance. Antiquity, 61, 66-69.

[52]   Schwarz-Mackensen, G. and Schneider, W. (2012) Felsgesteine als Rohmaterial Neolithischer Steinbeile und -axte in Mitteleuropa. In: Floss, H., Ed., Steinartefakte Vom Altpalaolithikum bis in die Neuzeit, Kerns Verlag, Tübingen, 875-892.

[53]   Lüning, J. (2000) Steinzeitliche Bauern in Deutschland. Die Landwirtschaft im Neolithikum. Habelt, Bonn.

[54]   Todorova, H. (2009) Oral Communication. Bulgaria Academy of Sciences, Sofia.

[55]   Fleckinger, A. and Steiner, H. (2005) Der Mann Aus dem Eis. Folio S, Südtiroler Archaologie Museum, Folio Verlag, Bozen, 55 p.

[56]   Whitehouse, D. and Whitehouse, R. (1975) Archaeological Atlas of the World. Thames and Hudson, London, 58-59.

[57]   Arz, H.W., Haug, G. and Tiedemann, R. (2007) Meeressedimente als Klimaarchiv. Geographische Rundschau, 59, 56-65.

[58]   Weblinks: Santorini and Its Eruption in the Late Bronze Age.
http://de.wikipedia.org/wiki/MinoischeEruption

[59]   TV Report, Pheonix, 17 April 2014.

[60]   TV Report, Pheonix, 7 June 2014.

[61]   Jaspers, K. (2012) Vom Ursprung und Ziel der Geschichte. 4. Auflage, Fischer Bücherei, Frankfurt a.M., Hamburg, 269 p.

[62]   Gebhardt (1973) Handbuch der Deutschen Geschichte. Band 1/2, 9. Auflage, dtv Wissenschaftliche Reihe, Deutscher Taschenbuch Verlag, München.

[63]   Glasenapp, H. (Ed.) (1957) Die Nichtchristlichen Religionen. Islam, Fischer Bücherei, Frankfurt a.M., 173-193.

[64]   Klimkeit, H.-J. (1987) Synkretismus in Zentralasieneine Zwischenbilanz. In: Heissig, W. and Klimkeit, H.-J., Eds., Synkretismus in den Religionen Zentralasiens, Otto Harrasowitz, Wiesbaden, 207-216.

[65]   Stuart, G.S. and Stuart, G.E. (1993) Lost Kingdoms of the Maya. National Geographic Society, Washington, 248 p.

[66]   Negendank, J.F.W. (1995) Palaoklima und Aktuelles Klima. In: Hermann von Helmholtz-Gemeinschaft Deutscher Forschungszentren, Hrsg., Palaoklima und Klimaprozesse, Potsdam, 5-7.

[67]   Morgenstern, M. (1985) Hildebrand’s Urlaubsführer, China. KG Verlag Gesellschaft, Frankfurt a.M., 111-114.

[68]   Schneiderhohn, H. (1962) Erzlagerstotten. 4. Auflage, Gustav Fischer Verlag, Stuttgart, 371 p. Siehe Auch Geol. Wanderpfad im Nationalpark Hohe Tauren, Rauriser Goldbergbau, osterreich.

[69]   Gebhardt (1973) Handbuch der Deutschen Gesechichte. Band 9, 9. Auflage, dtv Wissenschaftliche Reihe, Deutscher Taschenbuch Verlag, München.

[70]   Graber, D. (2011) Debt—The First 5000 Years. Melville House Publishing, Brooklyn, New York, 534 p.

[71]   Randers, J. (2012) Eine Globale Prognose für die nachsten 40 Jahre, 2052. Der neue Bericht an den Club of Rome. Oecom Verlag, München, 430 p.

[72]   Koch, H.P. (2000) The Diluvian Impact, the Great Flood Catastrophe 10000 Years Ago as the Consequence of a Comet’s Impact. Peter Lang, Wien, Frankfurt a.M., 274 p.

[73]   bin Gorion, M.J. (1913) Die Sagen der Juden I. von der Urzeit. XVI, Rütten und Loning, Frankfurt a.M., 378 p.

[74]   Gretener, P.E. (1978) Reflexions on the Rare Event and related Concepts in Geology. University of Calgary, Calgary, 17 p.

[75]   Stoffler, D. (2002) Bedrohung aus dem Weltall—Asteroiden und Kometen. In: Emmermann, R., Balling, R., Hasinger, G., Heiker, F.R., Schütt, C., Walther, D. and Donner, W., Eds., An den Fronten der Forschung: Kosmos-Erde-Leben, S. Hirzel Verlag, Stuttgart, 81-98.

[76]   Drewermann, E. (1992) Tiefenpsychologie und Exegese. Vol. 2, Walter Verlag, Olten, Freiburg i. Br., 851 p.

[77]   Ellul, J. (1981) Apokalypse. Die Offenbarung der Johannes-Enthüllung der Wirklichkeit. Neukirchener Verlag, Neukirchen-Vluyn, 263 p.

[78]   Gronenborn, D. (2005) Klimaveranderung und Kulturwandel in Neolithischen Gesellschaften Mitteleuropas. RGZM Tagungen Bd. 1.

[79]   Sens, E. (1997) Die unterbrochene Musikstunde. In: Hoyle, F., Ed., Kosmische Katastrophen und der Ursprung der Religion, Insel Verlag, Frankfurt a.M., 135 p.

 
 
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