2015
DOI: 10.1016/j.marpetgeo.2015.04.008
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Eastern Mediterranean: Combined geological–geophysical zonation and paleogeodynamics of the Mesozoic and Cenozoic structural-sedimentation stages

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Cited by 36 publications
(97 citation statements)
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“…Analysis of paleomagnetic data (see Figure 5) indicates that the central part of the GDRSP corresponding to the following regions: Eastern Taurides, Turkey [38], Central Lebanon [40], Cyprus [37], Northern Israel [41], Southern Israel [35] and Eastern Egypt [42] is characterized by counter-clockwise rotation (in [41] the clockwise rotation was also observed). The Western Caucasus (WC) is associated with the peripheral part of the GDRSP mainly exhibiting counter-clockwise rotation (e.g., [43] [44] [46]), whereas the Eastern Caucasus (EC) (Figure 4) located outside the GDRSP, primarily presents a clockwise rotation (e.g., [44] [47] [48] [97]).…”
Section: Discussionmentioning
confidence: 99%
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“…Analysis of paleomagnetic data (see Figure 5) indicates that the central part of the GDRSP corresponding to the following regions: Eastern Taurides, Turkey [38], Central Lebanon [40], Cyprus [37], Northern Israel [41], Southern Israel [35] and Eastern Egypt [42] is characterized by counter-clockwise rotation (in [41] the clockwise rotation was also observed). The Western Caucasus (WC) is associated with the peripheral part of the GDRSP mainly exhibiting counter-clockwise rotation (e.g., [43] [44] [46]), whereas the Eastern Caucasus (EC) (Figure 4) located outside the GDRSP, primarily presents a clockwise rotation (e.g., [44] [47] [48] [97]).…”
Section: Discussionmentioning
confidence: 99%
“…Simplified tectonic-geophysical scheme of the studied region overlaid on the gravity polynomial cubic surface approximation (see Figure 2) with rotational geodynamic elements. 1) Archean cratons, 2) Paleo-Middleproterozoic belts, 3) Neoproterozoic belt, 4) Late Paleozoic (Herzynian) belts, 5) Mesozoic terrane belt, 6) Alpine-Himalayan orogenic belt, 7) Cenozoic traps of African-Arabian rift belt, 8) main fault systems, 9) Kiama paleomagnetic hyperzone of inverse polarity [30] [35], 10) isolines of polynomial obtained regional gravity trend (see Figure 2), 11) rotational geodynamic elements derived from: a) paleomagnetic (major) and tectonic (minor) data: 1) Menderes (W. Anatolia) [36], 2) Cyprus [37], 3) E. Taurides [38] (Somalirhynchia-Septirhynchia) in these facies are very similar to those of the Ethiopian paleobiogeographical province in Saudi Arabia, Ethiopia, and Somalia [35]. Thus, the sedimentary deposits of the foreland of Northern Arabia and Eastern Nubia are tectonically discordantly joined with the allochthonic Mesozoic terrain belt ( Figure 5) rotated towards the Gondwana counterclockwise.…”
Section: Integrated Analysis Of Geophysical and Geological Factorsmentioning
confidence: 97%
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“…This in turn might have generated the necessary conditions for the periodical generation of MTDs. The Late Barremian to early Aptian period is overall characterized by raising sea levels (Haq & Al‐Qahtani, ; Haq, ), facilitating accumulation space of the PST at this time (Eppelbaum & Katz, ).…”
Section: Discussionmentioning
confidence: 99%
“…It should be noted that the Gissar paleomagnetic zone is by numerous approximately equivalent alternation of direct and reverse polarities (this fact must be taken into account by magnetic anomalies qualitative and quantitative examination). Eppelbaum and Katz, 2015, with small modifications) ( Garfunkel and Katz (1967), Zak (1968), Baer and Reches (1991), Baer (1993), Baer et al (1995), Sneh et al (1997)), (5) radiometric age of magmatic rocks (after Lang and Steinitz, 1989;Segev, 2000;Segev et al, 2005), (6) faults; paleomagnetic zonation within the magmatic complexes (7)(8)(9)(10): (7) Illawarra, (8) Omolon, (9) Gissar, (10) Jalal…”
Section: First Paleomagnetic Map Compilationmentioning
confidence: 99%