Seismic refraction profiles between Cyprus and Israel and their interpretation

Makris, J.; Abraham, Z. Ben; Behle, Alfred; Ginzburg, A.; Giese, P.; Steinmetz, Lorena Cecilia López; Whitmarsh, R. B.; Eleftheriou, S.

doi:10.1111/j.1365-246x.1983.tb05000.x

Cited by 183 publications

(129 citation statements)

References 5 publications

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“…28 km of continental crust (Aal et al, 2001;Ben-Avraham et al, 2002), Cyprus is underlain by ca. 35 km of continental crust (Makris et al, 1983), and to the southeast of the seamount there is either oceanic crust (Ben-Avraham et al, 2002) or highly attenuated continental crust (Gardosh and Druckman, 2006). The collision zone, which has been described as a N-dipping subduction zone (Woodside, 1977), has been more recently interpreted to be accommodating initial collision between the African and Eurasian plates (Robertson, 1998), possibly as a restraining bend along a continent-continent interface (Harrison et al, 2008).…”

Section: Uplift Mechanisms and Predicted Surface Uplift Patternsmentioning

confidence: 99%

Multi-phased uplift of the southern margin of the Central Anatolian plateau, Turkey: A record of tectonic and upper mantle processes

Schildgen

Cosentino

Bookhagen

et al. 2012

Earth and Planetary Science Letters

204

219

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Section: Uplift Mechanisms and Predicted Surface Uplift Patternsmentioning

confidence: 99%

Multi-phased uplift of the southern margin of the Central Anatolian plateau, Turkey: A record of tectonic and upper mantle processes

Schildgen

Cosentino

Bookhagen

et al. 2012

Earth and Planetary Science Letters

204

219

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“…Seismic refraction reveals that the Eratosthenes Seamount is underlain by a continental crust greater than 20 km thick, which is comparable to that of Cyprus and the southern Levant coast. The thickness of the Eratosthenes crust, which includes a significant layer with seismic velocities below 6.7 km/s, is in contrast to the thinned, high-velocity crust that occurs elsewhere in the southeastern Mediterranean (Makris et al, 1983). Although the lack of pronounced Bouguer gravity expression may rule out a lower crust root or flexural response to the topographic load (Woodside, 1976;Woodside et al, 1992;Makris and Wang, 1994), the differences in the velocity structure and thickness suggest a continental block within a zone of thinned-continental or oceanic crust (Garfunkel and Derin, 1984;Kempler and Ben-Avraham, 1987a).…”

Section: Introductionmentioning

confidence: 91%

“…The proximity of the paleomagnetic poles indicates that the deviation of the magnetic vector from the north is a result of the overall motion of Africa since early Mesozoic time rather than local rotation. The location and dimensions of the Eratosthenes structural high coincide with both the continental block in the seismic refraction profile and the estimated magnetized body beneath the Eratosthenes Seamount (Ben- Avraham et al, 1976;Makris et al, 1983). Therefore, we suggest that this structure represents the Mesozoic basement of the complex Eratosthenes structure.…”

Section: Indications For a Mesozoic Originmentioning

confidence: 99%

Eratosthenes Seamount: the possible spearhead of incipient continental collision in the Eastern Mediterranean

Kempler¹

1998

Proceedings of the Ocean Drilling Program, 160 Scientific Results

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We compare earlier works, based on available geophysical data and plate kinematic considerations, about the origin and evolution of the Eratosthenes structure within the Eastern Mediterranean tectonic framework, with data from Ocean Drilling Program (ODP) Leg 160. The model under discussion is supported by the ODP data regarding the late evolution of the Eratosthenes Seamount; however, deeper drilling is needed for better understanding of the early history of this structure.Analysis of the available seismic reflection, seismic refraction, and magnetic data in view of the regional geologic history suggests that the deep structure of the Eratosthenes Seamount originated in early Mesozoic time. The ODP data confirm that the Eratosthenes structure, which was located a few hundred kilometers away from the Late Cretaceous/early Tertiary active plate boundary, was not affected by the major tectonic events of that period. The data also reflect the existence of the Eratosthenes structural high already in Late Cretaceous and Eocene times. The ODP data corroborate that the Africa-Anatolia plate boundary was reactivated as the Cypriot Arc, between Cyprus and the Eratosthenes structure, in the late Miocene, through subduction of remnant oceanic lithosphere of the Mesozoic Neotethys beneath Cyprus.The absence of Messinian evaporites on the Eratosthenes Seamount and within the surrounding depression was confirmed by Leg 160 data. Similar data led us to infer that this area formed a Messinian island, which subsided in post-Messinian time. The post-Messinian subsidence shaped the seamount and surrounding natural moat, which in turn are superimposed on the Eratosthenes structural high. The Miocene-Pliocene subduction along the Cypriot Arc changed into collision between Cyprus and the Eratosthenes structure after the elimination of oceanic lithosphere from this junction. The Cyprus-Eratosthenes collision triggered the extreme uplift of southern Cyprus at about 1.5−2 Ma. Pulsed uplift of Cyprus, apparently accompanied by pulsed subsidence of the Eratosthenes area, marks incipient continental collision in the Eastern Mediterranean. The Eratosthenes Seamount, therefore, is the possible spearhead of incipient continental collision and is the best candidate for the study of collisional processes in this area.

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“…This is supported by crustal thinning from 30 -35 km on the African and Arabian continents to c. 8 km below the LB overlain by a 10-14 km thick sedimentary pile of Mesozoic (and Permian?) to present age (Makris et al 1983;Ginzburg & Ben-Avraham 1987;Vidal et al 2000;BenAvraham et al 2002). The affinity of the crust below the LB is regarded either as a highly stretched continent (Woodside 1977;Hirsch et al 1995;Vidal et al 2000) or as oceanic (Makris et al 1983;Ginzburg & Ben-Avraham 1987;Ben-Avraham et al 2002).…”

Section: General Evolution Of the Levantmentioning

confidence: 99%

“…to present age (Makris et al 1983;Ginzburg & Ben-Avraham 1987;Vidal et al 2000;BenAvraham et al 2002). The affinity of the crust below the LB is regarded either as a highly stretched continent (Woodside 1977;Hirsch et al 1995;Vidal et al 2000) or as oceanic (Makris et al 1983;Ginzburg & Ben-Avraham 1987;Ben-Avraham et al 2002). Shallow-marine conditions prevailed in the basin during Triassic and Liasic times, later followed by the formation of the deep-marine basin (Bartov & Steinitz 1977;Garfunkel 1998).…”

Section: General Evolution Of the Levantmentioning

confidence: 99%

Evolution of the Levant margin and western Arabia platform since the Mesozoic: introduction

Homberg

Bachmann

2010

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The Levant area comprises the offshore Levant Basin (LB) (eastern corner of the Eastern Mediterranean) as well as the adjacent continental slopes and platforms of the African and Arabian plates. This area experienced major events of the geodynamical evolution of the Middle East, such as the Late Palaeozoic-Early Mesozoic Pangea break up, the Late Cretaceous -Cenozoic closure of the Neo-Tethys and individualization of the Arabian plate, as well as a set of external factors like global sea-level and climate changes. This volume combines original data from the offshore and onshore Levant in various fields, including sedimentology, palaeontology, sequence stratigraphy, geochemistry, structural geology, stress reconstitution and geophysics (seismic lines, palaeomagnetism). All together, these multidisciplinary approaches allow the review of the development of the LB and gain a better insight on the later geological history and deformation processes of the Levant provinces.

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Seismic refraction profiles between Cyprus and Israel and their interpretation

Abstract: Seismic refraction profiles between Cyprus and Israel and their interpretation J, M a k r i s r n s t i t u t e

Cited by 183 publications

References 5 publications

Multi-phased uplift of the southern margin of the Central Anatolian plateau, Turkey: A record of tectonic and upper mantle processes

Multi-phased uplift of the southern margin of the Central Anatolian plateau, Turkey: A record of tectonic and upper mantle processes

Eratosthenes Seamount: the possible spearhead of incipient continental collision in the Eastern Mediterranean

Evolution of the Levant margin and western Arabia platform since the Mesozoic: introduction

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