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ATLANTIS IN SPAIN IV

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S.P Papamarinopoulos
S.P Papamarinopoulos

Abstract


Many analysts in the past faced Atlantis’ main city with the same way they faced his idealised concentric cities which he described in his dialogues. However, Atlantis’ concentric city has a marked difference which is recognisable if the analyst has geological knowledge. For instance the concentric scheme, the geothermal springs and the black, white and red rocks correspond in volcanogenic, impactogenic and diapeirogenic craters. It is known that building material from rocks existing in the vicinity of the two first, from the three, types of craters have been used in the past. It is also known that cities have been developed both on volcanogenic craters such as Santorin in the Aegean Sea, or on impactogenic craters such as in Nordlichen in Germany and in Yemen’s capitol respectively. A simulation experiment was carried out exactly in the platonic geomorphological conditions assuming that the concentric scheme could be of impactogenic origin. The result showed that such multi-ringed crater exhibits the platonic characteristics presented in Critias. However, such solution is not unique because the other two types of craters have not been tested yet. The statistical criterion which may be applied in all three simulations in the described platonic environment will decide by itself which is the most optimal solution between all three. Many experts who know nothing about Plato’s views about science and mythology can not differentiate between genuine and fabricated myths utilised by Plato. Most of them do not understand that the multiringed crater called Atlantis too by Plato is revealed in the ancient myths prior to Plato and was placed by these writers West of the Gibraltar Straits. Philostratus, in Roman times, is the only Greek writer who described its geological nature in detail and presented its position in Southern Spain. That crater Geryonis was associated with Heracles’ visit in Iberia. In the latter’s sea environment there are several submerged gigantic diapeirogenic craters and a small one visible even today in Andalucía’s. The geological age of the submerged craters, in Cadiz, precedes the prehistoric Greeks’ and Iberians’ presence in the area. One of them possibly became the object of observations of prehistoric Greek mariners who passed Heracles’ Pillars and it was interpreted as Poseidon’s act. These Greek mariners were accustomed to interpret craters in the Aegean Sea such the Nisyros’, for instance, one as Poseidon’s act too.

Keywords


Atlantis;Spain;

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References


Brumbaugh, R.S., 1954. Plato’s mathematical imagination.”The mathematical passages in the dialogues

and their interpretation”. Indiana University Press, p.p.302.

Chalari, A., St. P. Papamarinopoulos, G. Papatheodorou and G.Ferentinos. The Achaeans’ coming to

Africa and the island of Pharos. Proceedings of the International Conference: The Atlantis Hypothesis:

searching for a lost land, Athens 10-11 November 2008, Publisher: Heliotopos, Editor : Stavros

Papamarinopoulos, (in print).

Depos,G. D., 1980. Odyssey “Historical and Geographic verification”, Editor Pallas, p.p. 213 (In Greek).

Hellanicus.

Hesiod.

Homer.

Jordan, P., 2001. The Atlantis syndrome. Sutton publishing, p.p. 308.

Kabanakis, P., 1996. The communication, before the deluge, of the two worlds through Atlantis. A contribution

to the study of communication of the prehistoric Greeks with America. First edition 1892,

Second edition Ekate, Athens, (in Greek), 61 pp.

Matton, G., Jebrak Μ. & Lee J. K. M., 2005. Resolving the Richat enigma: Doming and hydrothermal

karstification above an alkaline complex. Geology, v.35, no 8, p.p. 665-668.

Montaxano, D. G. (www.antiguo.com).

Papamarinopoulos, St. P., Drivaliari, N. & Coseyan, Ch., 2007. Red tears in the Atlantic Ocean. Proceedings

of the International Conference: The Atlantis Hypothesis: searching for a lost land, Melos

Island 11-13 July 2005, Publisher:Heliotopos, Editor: Stavros Papamarinopoulos, p.p. 539-571.

Philostratos (Flavios).

Pindar.

Plato.

XLIII, No 1 – 136

Fig. 11: Pactroclos Kambanakis (1892) was the fist in the modern period who produced Atlantis’ picture on a

grid. Today there are views on this scheme, shown above, based on differences of various philological elements.

Petrides, S.P., 1999. Homer’s Odyssey. “America’s discovery by the ancient Greeks”, Editor D.Tassopoulos,

p.p.446.

Resbergen Van, Pieter, Davy Depreiter, Bar Pannemans and Jean-Pierre Henriet., 2005. Sea floor expression

of sediment extrusion and intrusion at the El Arraiche mud volcano field, Gulf of Cadiz.

Journal of Geophysical Research, Vol.110, FO 2010, doi:10.1029?2004 JF00165, pages 3 from 13.

Rooij, D. Van, 2005. EOS, vol.86, no 49, p.p. 509-511.

Steisichoros.

Strabo.

Tziropoulou, A., 2007. Homer and the so called Homeric problems. Proceedings of the symposium

“Homer Science and Technology”, Ancient Olympia, (2006). Editor: St. A. Paipetis, p.p. 451-467.

Tsikalas, F., Papamarinopoulos, St. P. & Shuvalov, V. V., 2007a. The origin of the multi-ringed concentric

morphology of Atlantis capital and its relation to the Platonic scripts. Proceedings of the International

Conference: The Atlantis Hypothesis: searching for a lost land, Melos Island, 11-13 July

, p.p. 203-211.

Tsikalas, F., Shuvalov, V. V. & Papamarinopoulos, St. P., 2007b. A new geophysical interpretation of the

Platonic multi-ringed concentric morphology of Atlantis capital based on numerical simulations. Proceedings

of the International Conference: The Atlantis Hypothesis: searching for a lost land, Melos

Island, 11-13 July 2005, p.p.193-202.

Weaver, P. P. E., 2005. Hotspot ecosystem research on the margins of European Seas. EOS, vol.86, no 24,

p.p. 226-227.


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