GEOLOGICAL AND MAGNETIC SUSCEPTIBILITY MAPPING OF MOUNT GIOUCHTA (CENTRAL CRETE)


E. Kokinou
E. Kamberis
A. Sarris
I. Tzanaki
Résumé
Giouchta Mt. is located south of Heraklion city, in Crete. It is an N-S trending morphological asymmetric ridge, with steep western slope whilst the eastern slope represents a smoother relief, composed of Mesozoic limestone and Eocene- lower Oligocene flysch sediments of the Gavrovo -Tripolis zone. The present study focuses on the geological structure of Mt. Giouchta. Field mapping and tectonic analysis is performed for this purpose. The dominant structures are contractional in nature, deformed by normal faulting related to the extensional episodes initiated in Serravallian times. The strain pattern in the area is revealed from strain analysis. It is inferred that the orientation of the stress field in the area has changed several times: the N-S, stress field which was dominant during Late Serravallian times changed to NE-SW (in Late Serravallian? - Early Tortonian) and subsequently to WNW-ESE (Early to Middle Tortonian) to become NW-SE in Late Tortonian. This orientation changed also during the Quaternary times trending from NW-SE (Early Pleistocene) to ENE-WSW (Middle Pleistocene-Holocene). In addition to the above, surface soil samples were collected in the wider area of mount Giouchta and they were analyzed in order to determine the magnetic susceptibility. GIS techniques were used for mapping the spatial distribution of the geological features and the magnetic measurements on the topographic relief of the area. Statistical analysis techniques were also applied in order to investigate the relation of faulting and magnetic susceptibility. Maps representing the spatial distribution of the above measurements were created by using appropriate interpolation algorithms.
Article Details
  • Rubrique
  • General and Structural Geology
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Références
Alexander, J., Nichols, E.G. & Leigh, S. 1990. The origins of marine conglomerate in the Indus foreland
basin, Greece. Sed. Geol, 66, 243-254.
Angelier, J., 1979. Néotectonique de L’arc Egaen. Soc. Geol. Nord, Spec. Publ., 3.
Aubouin, J., 1959. Contribution a l’étude géologique de la Grèce septentrionale: le confins de l’Epire et
de la Thessalie. Ann. Geol. Pays Hellen., 10, 1-484.
Armijo, R., Lyon-Caen, H., Papanastassiou, D., 1982. East-west extension and Holocene normal fault –
scarps in the Hellenic arc. Geology, 20, 491-494.
Benda, L., Meulenkamp, J.E., Zachariasse, W.J., 1974. Biostratigraphic correlations in the Eastern
Mediterranean Neogene. 1. Correlation between planktonic foraminiferal, uvigerinid, sporomorphal
and mammal zonations of the Cretan and Italian Neogene. Newsl. Stratigr., 3, 205–217.
Bonnefont, J.C., 1977. La néotectonique et sa traduction dans le paysage géomorphologique de l’Ile de
Crete (Gre`ce). Rev. Gjogr. Phys. Gjol. Dyn., 14, 93–108.
Brunn, J-H., 1956. Contribution a l’étude géologique du Pinde et d’ une partie de la Macédoine occidentale.
Ann. Geol. Pays. Hellen., 13, 1-446.
Dercourt, J., 1964. Contribution a l’étude géologique d’ un secteur du Péloponnèse occidental. Ann. Geol.
Pays. Hellen., 15, 1-418.
Fassoulas, C., 2001. The tectonic development of a Neogene basin at the leading edge of the active European
margin: the Heraklion basin, Crete, Greece. J. Geodyn., 31, 49-70.
Fleury, J., 1980. Les zones de Gavrovo - Tripolitsa et du Pinde - Olonos (Grèce continentale et Pèloponnése
du Nord). Évolution d’une plateforme et d’un bassin dans leur carde alpin. Soc. Géol. Nord, 4,
-651. Frydas, D. 1998. Plankton-Stratigraphie des Pliozans und unteren Pleistozans des SW-Peloponnes,
Griechenland. Newsletters on Stratigraphy, 23, 91–108.
Geological map of Greece (1:50000), Epano Archanes sheet, IGME.
Kokkalas, S. and Doutsos, T., 2004. Kinematics and strain partitioning in the southeast Hellenides
(Greece). Geol. J., 39, 121-140.
Lyon-Caen, H., Armijo, R., Drakapoulos, J., Baskoutas, J., Delibassis, N., Gaulon, R., Kouskouna, V., Latoussakis,
J., Makropoulos, K., Papadimitrou, P., Papanastassiou, D., Pedotti, G., 1988. The 1986
Kalamata (south Peloponnesus) earthquake: detailed study of a normal fault, evidences for east–west
extension in the Hellenic arc. J. Geophys. Res., 93, 14967–15000.
Mercier, J.L., 1981. Extensional-compressional tectonics associated with the Aegean Arc: comparison with
the Andean Cordillera of south Peru – north Bolivia. Phil. Trans. R. Soc. London, A, 300, 337–355.
Mercier, J.L., Sorel, D., Vergely, P., Simeakis, K., 1989. Extensional tectonic regimes in the Aegean basins
during the Cenozoic. Basin Res., 2, 49–71.
Meulenkamp, J.E., 1979. Field guide to the Neogene of Crete. Publishers. Dept. Geol. Pal. University of
Athens, ser. A, 32, 1–31.
Meulenkamp, J.E., Wortel, M.J.R., Van Wamel, W.A., Spakman, W., Hoogerduyn Straating, N.E., 1988.
On the Hellenic subduction zone and the geodynamic evolution of Crete since the late Middle
Miocene. Tectonophysics, 146, 203–215.
Meulenkamp, J.E.,Van Der Zwaan, G.J., Van Wamel, W.A., 1994. On Late Miocene to Recent vertical motions
in the Cretan segment of the Hellenic arc. Tectonophysics, 234, 53–72.
Ten Veen, J.H. and Postma, G., 1999. Neogene tectonics and basin fill patterns in the Hellenic outer-arc
(Crete, Greece). Basin Research, 11, 223–241.
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