[1]
|
Cloetingh, S. and Willet, S.D. (2013) Linking Deep Earth and Surface Processes. EOS, 94, 53-54. https://doi.org/10.1002/2013EO050002
|
[2]
|
Cloetingh, S., Tibaldi, A., Dobrzhinetskaya, L., Matenco, L., Nader, F. and de Vries, B.V.W. (2018) From the Deep Earth to the Surface: A Multiscale Approach. Global and Planetary Change, 171, 1-322. https://doi.org/10.1016/j.gloplacha.2018.10.007
|
[3]
|
Faccenna, C., Becker, T.W., Auer, L., Billi, A., Boschi, L., Brun, J.P., Capitanio, F.A., Funiciello, F., Horvàth, F., Jolivet, L., Piromallo, C., Royden, L., Rossetti, F. and Serpelloni, E. (2014) Mantle Dynamics in the Mediterranean. Review of Geophysics, 52, 283-332. https://doi.org/10.1002/2013RG000444
|
[4]
|
Ben-Avraham, Z. and Ginzburg, A. (1990) Displaced Terranes and Crustal Evolution of the Levant and the Eastern Mediterranean. Tectonics, 9, 613-622.
https://doi.org/10.1029/TC009i004p00613
|
[5]
|
Muttoni, G., Kent, D.V., Garzanti, E., Brack, P., Abrahamsen, N. and Gaetani, M. (2003) Early Permian Pangea ‘B’ to Late Permian Pangea ‘A’. Earth and Planetary Science Letters, 215, 379-394. https://doi.org/10.1016/S0012-821X(03)00452-7
|
[6]
|
Reilinger, R.E., McClusky, S., Vernant, P., Lawrence, S., Ergintav, S., Cakmak, R., Ozener, H., Kadirov, F., Guliyev, I., et al. (2006) GPS Constraints on Continental Deformation in the Africa-Arabia-Eurasia Continental Collision Zone and Implications for the Dynamics of Plate Interactions. Journal of Geophysical Research, BO5411, 1-26. https://doi.org/10.1029/2005JB004051
|
[7]
|
Stampfli, G.M., Hochard, C., Vérard, C., Wilhem, C. and von Raumer, J. (2013) The Formation of Pangea. Tectonophysics, 593, 1-19.
https://doi.org/10.1016/j.tecto.2013.02.037
|
[8]
|
Rolland, Y., Hassig, M., Bosch, D., Bruguier, O., Melis, R., Galoyan, G., Topuz, G., Sahakyan, L., Avagyan, A. and Sosson, M. (2019) The East Anatolia-Lesser Caucasus Ophiolite: An Exceptional Case of Large-Scale Obduction, Synthesis of Data and Numerical Modelling. Geoscience Frontiers, 11, 83-108.
https://doi.org/10.1016/j.gsf.2018.12.009
|
[9]
|
Jolivet, L., Faccenna, C., Agard, P., de Lamotte, D.F., Menant, A., et al. (2016) Neo-Tethys Geodynamics and Mantle Convection: From Extension to Compression in Africa and a Conceptual Model for Obduction. Canadian Jour. of Earth Sciences, 53, 1-15. https://doi.org/10.1139/cjes-2015-0118
|
[10]
|
Ben-Avraham, Z., Ginzburg, A., Makris, J. and Eppelbaum, L. (2002) Crustal Structure of the Levant Basin, Eastern Mediterranean. Tectonophysics, 346, 23-43.
https://doi.org/10.1016/S0040-1951(01)00226-8
|
[11]
|
Gass, I.G. (1968) Is the Troodos Massif of Cyprus a Fragment of Mesozoic Ocean Floor? Nature, 220, 39-42. https://doi.org/10.1038/220039a0
|
[12]
|
Boschi, L., Faccenna, C. and Becker, T.W. (2010) Mantle Structure and Dynamic Topographyin the Mediterranean Basin. Geophysical Research Letters, 37, L20303.
https://doi.org/10.1029/2010GL045001
|
[13]
|
Kaban, M.K., El Khrepy, S., Al-Arifi, N., Tesauro, M. and Stolk, W. (2016) Three Dimensional Density Model of the Upper Mantle in the Middle East: Interaction of Diverse Tectonic Processes. Journal of Geophysical Research: Solid Earth, 121, 5349-5364. https://doi.org/10.1002/2015JB012755
|
[14]
|
Kaban, M.K., El Khrepy, S. and Al-Arifi, N. (2017) Importance of the Decompensative Correction of the Gravity Field for Study of the Upper Crust: Application to the Arabian Plate and Surroundings. Pure and Applied Geophysics, 174, 349-358. https://doi.org/10.1007/s00024-016-1382-0
|
[15]
|
Eppelbaum, L.V. and Katz, Y.I. (2017) A New Regard on the Tectonic Map of the Arabian-African Region Inferred from the Satellite Gravity Analysis. Acta Geophysica, 65, 607-626. https://doi.org/10.1007/s11600-017-0057-2
|
[16]
|
Eppelbaum, L., Katz, Yu., Klokochnik, J., Kosteletsky, J., Ben-Avraham, Z. and Zheludev, V. (2018) Tectonic Insights into the Arabian-African Region Inferred from a Comprehensive Examination of Satellite Gravity Big Data. Global and Planetary Change, 171, 65-87. https://doi.org/10.1016/j.gloplacha.2017.10.011
|
[17]
|
Eppelbaum, L.V. and Katz, Y.I. (2020) Significant Tectono-Geophysical Features of the African-Arabian Tectonic Region: An Overview. Geotectonics, 54, 266-283.
|
[18]
|
Sandwell, D.T., Garcia, E., Soofi, K., Wessel, P. and Smith, W.H.F. (2013) Toward 1 mGal Global Marine Gravity from CryoSat-2, Envisat, and Jason-1. The Leading Edge, 32, 892-899. https://doi.org/10.1190/tle32080892.1
|
[19]
|
Doubre, C., Déprez, A., Masson, F., Socquet, A., Lewi, E., Grandin, R., Nercessian, A., Ulrich, P., De Chabalier, J.-B., Saad, I., Abayazid, A., Peltzer, G., Delorme, A., Calasis, E. and Wright, T. (2017) Current Deformation in Central Afar and Triple Junction Kinematics Deduced from GPS and InSAR Measurements. Geophysical Journal International, 208, 936-953. https://doi.org/10.1093/gji/ggw434
|
[20]
|
Ahlberg, J.H., Nilson, E.N. and Walsh, J.N. (1967) The Theory of Splines and Their Applications. Academic Press, London.
|
[21]
|
Barbeau, E.J. (2003) Polynomials. Ser.: Problem Books in Mathematics, Springer, Berlin, Heidelberg.
|
[22]
|
Lemoine, F.G., et al. (1996) The NASA and DMA Joint Geopotential Model. 1996 Eos, Transactions American Geophysical Union.
|
[23]
|
Telford, W.M., Geldart, L.R. and Sheriff, R.E. (1990) Applied Geophysics. Cambridge University Press, Cambridge. https://doi.org/10.1017/CBO9781139167932
|
[24]
|
Khesin, B.E., Alexeyev, V.V. and Eppelbaum, L.V. (1996) Interpretation of Geophysical Fields in Complicated Environments. Ser.: Modern Approaches in Geophysics, Kluwer Academic Publishers (Springer), Dordrecht, London.
https://doi.org/10.1007/978-94-015-8613-9
|
[25]
|
Eppelbaum, L.V. and Khesin, B.E. (2012) Geophysical Studies in the Caucasus. Springer, Heidelberg, London. https://doi.org/10.1007/978-3-540-76619-3
|
[26]
|
Schaeffer, A.J. and Lebedev, S. (2013) Global Shear-Speed Structure of the Upper Mantle and Transition Zone. Geophysical Journal International, 194, 417-449.
https://doi.org/10.1093/gji/ggt095
|
[27]
|
Tesauro, M., Kaban, M.K., Mooney, W.D. and Cloetingh, S.A.P.L. (2014) Density, Temperature, and Composition of the North American Lithosphere-New Insights from a Joint Analysis of Seismic, Gravity, and Mineral Physics Data: 2. Thermal and Compositional Model of the Upper Mantle. Geochemistry, Geophysics, Geosystems, 15, 4808-4830. https://doi.org.10.1002/2014GC005484.
|
[28]
|
Steinberger, B. and Calderwood, A.R. (2006) Models of Large-Scale Viscous Flow in the Earth’s Mantle with Constraints from Mineral Physics and Surface Observations. Geophysical Journal International, 167, 1461-1481.
https://doi.org/10.1111/j.1365-246X.2006.03131.x
|
[29]
|
Kaban, M.K., Petrunin, A.G., El Khrepy, S. and Al-Arifi, N. (2018) Diverse Continental Subduction Scenarios along the Arabia-Eurasia Collision Zone. Geophysical Research Letters, 45, 6898-6906. https://doi.org/10.1029/2018GL078074
|
[30]
|
Eppelbaum, L.V., Nikolaev, A.V. and Katz, Y.I. (2014) Space Location of the Kiama Paleomagnetic Hyperzone of Inverse Polarity in the Crust of the Eastern Mediterranean. Doklady Earth Sciences, 457, 710-714.
https://doi.org/10.1134/S1028334X14080212
|
[31]
|
Richards, M.A. and Hager, B.H. (1984) Geoid Anomalies in a Dynamic Earth. Journal of Geophysical Research, 89, 5987-6002.
https://doi.org/10.1029/JB089iB07p05987
|
[32]
|
Katz, Y.I. (1986) Cretaceous Thalassocratic Maxima and Planetary Movements of Hydrosphere. In: Naidin, D.P., Ed., Cretaceous Period. Paleogeography and Paleooceanology, Nauka, Moscow, 191-237. (In Russian)
|
[33]
|
Aleinikov, A.L., Belikov, V.T. and Eppelbaum, L.V. (2001) Some Physical Foundations of Geodynamics. Kedem Printing-House, Tel Aviv, Israel (In Russian).
|
[34]
|
Makris, J., Henke, C.H., Egloff, F. and Akamaluk, T. (1991) The Gravity Field of the Red Sea and East Africa. Tectonophysics, 198, 369-381.
https://doi.org/10.1016/0040-1951(91)90161-K
|
[35]
|
Eppelbaum, L.V. and Katz, Y.I. (2015) Eastern Mediterranean: Combined Geological-Geophysical Zonation and Paleogeodynamics of the Mesozoic and Cenozoic Structural-Sedimentation Stages. Marine and Petroleum Geology, 65, 198-216.
https://doi.org/10.1016/j.marpetgeo.2015.04.008
|
[36]
|
Uzel, B., Langereis, C.G., Kaymakci, N., Sozbilir, H., Ozkaymak, C. and Ozkaptan, M. (2015) Paleomagnetic Evidence for an Inverse Rotation History of Western Anatolia during the Exhumation of Menderes Core Complex. Earth and Planetary Science Letters, 414, 108-125. https://doi.org/10.1016/j.epsl.2015.01.008
|
[37]
|
Borradaile, G.J., Lagroix, F., Hamilton, T.D. and Trebilcock, D.A. (2010) Ophiolite Tectonics, Rock Magnetism and Paleomagnetism, Cyprus. Survey of Geophysics, 31, 285-359. https://doi.org/10.1007/s10712-009-9090-2
|
[38]
|
Kissel, C., Laj, C., Poisson, A. and Gorür, N. (2003) Paleomagnetic Reconstruction of the Cenozoic Evolution of the Eastern Mediterranean. Tectonophysics, 362, 199-217. https://doi.org/10.1016/S0040-1951(02)00638-8
|
[39]
|
Menant, A., Jolivet, L. and Vrielynck, B. (2016) Kinematic Reconstructions and Magmatic Evolution Illuminating Crustal and Mantle Dynamics of the Eastern Mediterranean Region Since the Late Cretaceous. Tectonophysics, 675, 103-140.
https://doi.org/10.1016/j.tecto.2016.03.007
|
[40]
|
Henry, B., Homberg, C., Mroueh, M., Hamdan, W. and Higazi, F. (2010) Rotations in Lebanon Inferred from New Palaeomagnetic Data and Implications for the Evolution of the Dead Sea Transform System. Geological Society, London, Special Publications, 341, 269-285. https://doi.org/10.1144/SP341.13
|
[41]
|
Ron, H., Freund, R., Garfunkel, Z. and Nur, A. (1984) Block Rotation by Strike-Slip Faulting: Structural and Paleomagnetic Evidence. Journal of Geophysical Research, 89P, 6256-6270. https://doi.org/10.1029/JB089iB07p06256
|
[42]
|
Lotfi, H.I. (2015) Early Cretaceous Counterclockwise Rotation of Northeast Africa within the Equatorial Zone: Paleomagnetic Study on Mansouri Ring Complex, Southeastern Desert, Egypt. NRIAG Journal of Astronomy and Geophysics, 4, 1-15.
https://doi.org/10.1016/j.nrjag.2015.01.001
|
[43]
|
Hisarli, Z.M. (2011) New Paleomagnetic Constraints on the Late Cretaceous and Early Cenozoic Tectonic History of the Eastern Pontides. Journal of Geodynamics, 52, 114-128. https://doi.org/10.1016/j.jog.2010.12.004
|
[44]
|
Rolland, Y. (2017) Caucasus Collisional History: Review of Data from East Anatolia to West Iran. Gondwana Research, 49, 130-146.
https://doi.org/10.1016/j.gr.2017.05.005
|
[45]
|
Meijers, M.J.M., Smith, B., Pastor-Gala, D., Degenaar, R. Sadradze, N., Adamia, S., Sahakyan, L., Avagyan, A., Sosson, M., Rolland, Y., Langereis, C.G. and Müller, C. (2015) Progressive Orocline Formation in the Eastern Pontides-Lesser Caucasus. In: Sosson, M., Stephenson, R.A. and Adamia, S.A., Eds., Tectonic Evolution of the Eastern Black Sea and Caucasus, Volume 428, Geological Society, Special Publications, London, 117-143. https://doi.org/10.1144/SP428.8
|
[46]
|
Bazhenov, M.L. and Burtman, V.S. (2002) Eocene Paleomagnetism of the Caucasus (Southwest Georgia): Oroclinal Bending in the Arabian Syntaxis. Tectonophysics, 344, 247-259. https://doi.org/10.1016/S0040-1951(01)00189-5
|
[47]
|
Halafly, A.A. (2006) Paleomagnetism of the Lesser Caucasus. Baku, Azerbaijan (In Russian).
|
[48]
|
Ismailzadeh, T.A. (1983) Paleomagnetic Investigations of the Meso-Cenozoic Rocks of Azerbaijan. Institute of the Physics of the Earth, Moscow. (In Russian)
|
[49]
|
Vannucci, G., Pondrelli, S., Argnani, S., Morelli, A., Gasperini, P. and Boschi, E. (2004) An Atlas Ozaref Mediterranean Seismicity. Annals of Geophysics, 47, 247-306.
|
[50]
|
Zare, M., Amini, H., Yazdi, P., Sesetyan, K., Demircioglu, M.B., Kalafat, D., Erdik, M., Giardini, D., Khan M.A. and Tsereteli, N. (2014) Recent Developments of the Middle East Catalog. Journal of Seismology, 18, 749-772.
https://doi.org/10.1007/s10950-014-9444-1
|
[51]
|
El-Quliti, S.A., Al-Harbi, T.B.S., Al-Yami, M.B.S., Al-Ghamdi, A.B.M. and Al-Shammari, M.B.M. (2016) Assessment of Main Parameters of Extreme Earthquakes in Red Sea, West Coast of Saudi Arabia. Open Journal of Earthquake Research, 5, 122-134. https://doi.org/10.4236/ojer.2016.52010
|
[52]
|
Muttoni, G., Erba, E., Kent, D.V. and Bachtadse, V. (2005) Mesozoic Alpine Facies Deposition as a Result of Past Latitudinal Plate Motion. Letters to Nature, 434, 59-63. https://doi.org/10.1038/nature03378
|
[53]
|
Su, W.-J., Woodward, R.L. and Dziewonski, A.M. (1994) Degree-12 Model of Shear Velocity Heterogeneity in the Mantle. Journal of Geophysical Research, 99, 4945-4980. https://doi.org/10.1029/93JB03408
|
[54]
|
Van der Hilst, R.D., Widiyantoro, S. and Engdahl, E.R. (1997) Evidence for Deep Mantle Circulation from Global Tomography. Nature, 386, 578-584.
https://doi.org/10.1038/386578a0
|
[55]
|
Wen L. and Helmberger, D.V. (1998) Ultra-Low Velocity Zones Near the Core-Mantle Boundary from Broadband PKP Precursors. Science, 279, 1701-1703.
https://doi.org/10.1126/science.279.5357.1701
|
[56]
|
Schmid, C., van der Lee, S., Van Decar, J.C., Engdah, E.R. and Giardin, D. (2008) Three-Dimensional S Velocity of the Mantle in the Africa-Eurasia Plate Boundary Region from Phase Arrival Times and Regional Waveforms. Journal of Geophysical Research, 113, B03306. https://doi.org/10.1029/2005JB004193
|
[57]
|
Van der Meer, D.G., Spakman, W., van Hinsbergen, D.J.J., Amaru, M.L. and Torsvik, T.H. (2009) Towards Absolute Plate Motions Constrained by Lower-Mantle Slab Remnants. Nature Geoscience, 3, 36-46.
https://doi.org/10.1038/ngeo708
|
[58]
|
Van der Meer, D.G., van Hinsbergen, D.J.J. and Spakman, W. (2018) Atlas of the Underworld: Slab Remnants in the Mantle, Their Sinking History, and a New Outlook on Lower Mantle Viscosity. Tectonophysics, 723, 309-448.
https://doi.org/10.1016/j.tecto.2017.10.004
|
[59]
|
Artemieva, I., Thybo, H. and Kaban, M.K. (2006) Deep Europe Today: Geophysical Synthesis of the Upper Mantle Structure and Lithospheric Processes over 3.5 Ga. In: Gee, D. and Stephenson, R., Eds., Special Volume “European Lithosphere Dynamics”, Volume 32, Geological Society of London, London, 11-41.
https://doi.org/10.1144/GSL.MEM.2006.032.01.02
|
[60]
|
Elgabry, M.N., Panza, G.F., Badawy, A.A. and Ibrahim, M.K. (2013) Imaging a Relic of Complex Tectonics: The Lithosphere Asthenosphere Structure in the Eastern Mediterranean. Terra Nova, 25, 102-109. https://doi.org/10.1111/ter.12011
|
[61]
|
Eppelbaum, L.V. and Katz, Y.I. (2015). Newly Developed Paleomagnetic Map of the Easternmost Mediterranean Unmasks Geodynamic History of this Region. Central European Journal of Geosciences (Open Geosciences), 7, 95-117.
https://doi.org/10.1515/geo-2015-0008
|
[62]
|
Eppelbaum, L.V., Vaksman, V.L., Kouznetsov, S.V., Sazonova, L.M., Smirnov, S.A., Surkov, A.V., Bezlepkin, B., Katz, Y., Korotaeva, N.N. and Belovitskaya, G. (2006) Discovering of Microdiamonds and Minerals-Satellites in Canyon Makhtesh Ramon (Negev Desert, Israel). Doklady Earth Sciences, 407, 202-204.
https://doi.org/10.1134/S1028334X06020097
|
[63]
|
Griffin, W.L., Gain, S.E.M., Adams, D.T., Huang, J.-X., Saunders, M., Toledo, V., Pearson N.J. and O’Reilly, S.Y. (2016) First Terrestrial Occurrence of Tistarite (Ti2O3): Ultra-Low Oxygen Fugacity in the Upper Mantle beneath Mount Carmel, Israel. Geology, 44, 815-818. https://doi.org/10.1130/G37910.1
|
[64]
|
Dobrzhinetskaya, L., Mukhin, P., Wang, Q., Wirth, R., O’Bannon, E., Zhao, W., Eppelbaum, L. and Sokhonchuk, T. (2018) Moissanite (SiC) with Metal-Silicide and Silicon Inclusions from Tuff of Israel: Search for a Primary Source. Lithos, 310-311, 355-368. https://doi.org/10.1016/j.lithos.2017.04.001
|
[65]
|
Barakat, A.A. and Kandil, S.M.R. (2019) Diamond in the Newly Discovered Kimberlite and Related Rocks, Central Eastern Desert, Egypt. Proceedings of the XXXVI International Conference of “Magmatism of the Earth and Related Strategic Metal Deposits”, St Petersburg University, Russia, 23-26 May 2019, 36-42.
|
[66]
|
Chan, G.H.-N., Malpas, J., Xenopnontos, C. and Lo, C.-H. (2008) Magmatism Associated with Gondwanaland Rifting and Neo-Tethyan Oceanic Basin Development: Evidence from the Mamonia Complex, SW Cyprus. Journal of the Geological Society, 165, 699-709. https://doi.org/10.1144/0016-76492007-050
|
[67]
|
Esperanza, S. and Garfunkel, Z. (1986) Ultramafic Xenoliths from the Mt Carmel Area (Karem Maharal Volcano), Israel. Lithos, 19, 43-49.
https://doi.org/10.1016/0024-4937(86)90014-9
|
[68]
|
Segev, A. (2000) Synchronous Magmatic Cycles during the Fragmentation of Gondwana: Radiometric Ages from the Levant and Other Provinces. Tectonophysics, 325, 257-277. https://doi.org/10.1016/S0040-1951(00)00122-0
|
[69]
|
Krasheninnikov, V.A., Hall, J.K., Hirsch, F., Benjamini, H. and Flexer, A. (2005) Geological Framework of the Levant. Volume 1: Cyprus and Syria. Jerusalem, Israel.
|
[70]
|
Sharkov, E.V. and Hanna, C. (1987) Evolution of the Upper Mantle Matter within the Regions of the Intraplate Basaltic Magmatism (on Example of the Western Syria). Doklady of the Academy of Sciences of the USSR, 297, 684-686.
|
[71]
|
Roure, F., Casero, P. and Addoum, B. (2012) Alpine Inversion of the North African Margin and Delamination of Its Continental Lithosphere. Tectonics, 31, 1-28.
https://doi.org/10.1029/2011TC002989
|
[72]
|
Cimen, O., Toksoy-Koksal, F., Oztüfeksi-Onal, A. and Aktag, A. (2016) Depleted to Refertilized Mantle Peridotites Hosting Chromitites within the Tunceli Ophiolite, Eastern Anatolia (Turkey): Insights on the Back Arc Origin. Ofioliti, 41, 1-20.
|
[73]
|
Bagsi, U. (2013) The Geochemistry and Petrology of the Ophiolitic Rocks from the Kahramanmaras Region, Southern Turkey. Turkish Journal of Earth Sciences, 22, 536-562.
|
[74]
|
Akbulut, M., Colak, M., Oyman, T., Gnos, E. and Piskin, O. (2009) Formation of Podiform Dunites in the Lycian Peridotite Nappes (Agla-Koycegiz, SW Turkey). Ofioliti, 34, 1-15.
|
[75]
|
Dilek, Y. and Robinson, R.T. (2003) Ophiolites in Earth History. The Geological Society of America, Special Publication 218.
https://doi.org/10.1144/GSL.SP.2003.218.01.01
|
[76]
|
Pomonis, P. and Magganas, A. (2017) Petrogenetic Implications for Ophiolite Ultramafic Bodies from Lokris and Beotia (Central Greece) Based on Chemistry of Their Cr-Spinels. Geoisciences, 7, 1-16. https://doi.org/10.3390/geosciences7010010
|
[77]
|
Dilek, Y. and Pavlides, S. (2006) Postcollisional Tectonics and Magmatism in the Mediterranean Region and Asia. The Geological Society of America, 409.
https://doi.org/10.1130/SPE409
|
[78]
|
Uysal, I., Sen, A.D., Ersoy, E.Y., Dilek, Y., Saka, S., Zaccarini, F., Escayola, M. and Karsl, O. (2014) Geochemical Make-up of Oceanic Peridotites from NW Turkey and the Multi-Stage Melting History of the Tethyan Upper Mantle. Mineral Petrology, 108, 49-69. https://doi.org/10.1007/s00710-013-0277-3
|
[79]
|
Andrew, T. and Robertson, A.H.F. (2002) The Beysehir-Hoyran-Hadim Nappes: Genesis and Emplacement of Mesozoic Marginal and Oceanic Units of the Northern Neotethys in Southern Turkey. Journal of the Geological Society, 159, 529-543.
https://doi.org/10.1144/0016-764901-157
|
[80]
|
Sakir, ü. and üner, T. (2016) The Ankara Mélange: An Indicator of Tethyan Evolution of Anatolia. Geologica Carphatica, 67, 403-414.
https://doi.org/10.1515/geoca-2016-0025
|
[81]
|
Lian, D., Yang, J., Dilek, Y., Wu, W., Zhang, Z., Xiong, F., Liu, F. and Zhou, W. (2017) Deep Mantle Origin and Ultra-Reducing Conditions in Podiform Chromitite: Diamond, Moissanite, and Other Unusual Minerals in Podiform Chromitites from the Pozanti-Karsanti Ophiolite, Southern Turkey. American Mineralogist, 102, 1101-1113.
|
[82]
|
Moghadam, H.S. and Stern, R.J. (2015) Ophiolites of Iran: Keys to Understanding the Tectonic Evolution of SW Asia: (II) Mesozoic Ophiolites. Journal of Asian Earth Sciences, 100, 31-59. https://doi.org/10.1016/j.jseaes.2014.12.016
|
[83]
|
Koppa, M., Koller, F. and Putis, M. (2014) Petrology and Geochemistry of a Peridotite Body in Central-Carpathian Paleogene Sediments (Sedlice, Eastern Slovakia). Geologica Carphatica, 65, 387-399.
https://doi.org/10.2478/geoca-2014-0022
|
[84]
|
Kazantsev, Y.V. (1982) Tectonics of the Crimea. Nauka, Moscow (In Russian).
|
[85]
|
Alexandre, P. Chalot-Prat, F., Saintot, A., Wijbrans, J., Stephenson, R., Wilson, M., Kitchka, A. and Stovba, S. (2004) The 40Ar/39Ar Dating of Magmatic Activity in the Donbas Fold Belt and the Scythian Platform (Eastern European Craton). Tectonics, 23, TC5002. https://doi.org/10.1029/2003TC001582
|
[86]
|
Wooley, A.R. (2001) Alkaline Rocks and Carbonatites of the World: Africa. Geological Society of London.
|
[87]
|
Meneisy, M.Y. (1986) Mesozoic Igneous Activity in Egypt. Qatar University Science Journal, 6, 317-328.
|
[88]
|
Bonatti, E., Ottonello, G. and Hamlyn, P.R. (1986) Peridotites from the Island of Zabargad (St. John), Red Sea: Petrology and Geochemistry. Journal of Geophysical Research, 91, 599-631. https://doi.org/10.1029/JB091iB01p00599
|
[89]
|
Lucassen, F., Pudlo, D., Franz, G., Romer, R.L. and Dulski, P. (2013) Cenozoic Intra-Plate Magmatism in the Darfur Volcanic Province: Mantle Source, Phonolite-Trachyte Genesis and Relation to Other Volcanic Provinces in NE Africa. International Journal of Earth Sciences, 102, 183-205.
https://doi.org/10.1007/s00531-012-0792-1
|
[90]
|
Gnos, E. and Perrin, M. (1996) Formation and Evolution of the Masirah Ophiolite Constrained by Paleomagnetic Study of Volcanic Rocks. Tectonophysics, 253, 53-64. https://doi.org/10.1016/0040-1951(95)00056-9
|
[91]
|
Rengarten, N.V and Starostina, Z.M. (1956) Geological-Lithological Investigations of Liasic Deposits in the Northern Slope of the Central Caucasus. In: Brizke, E.V., Ed., Geology and Useful Minerals of the Central Part of the Northern Caucasus, Academy of Sciences of the USSR, Moscow, 83-147.
|
[92]
|
George Jr., R.P. (1978) Structural Petrology of the Olympus Ultramafic Complex in the Troodos Ophiolite, Cyprus. Geological Society of America Bulletin, 89, 845-865.
https://doi.org/10.1130/0016-7606(1978)89<845:SPOTOU>2.0.CO;2
|
[93]
|
Taylor, R.N. and Nesbitt, R.W. (1988) Light Rare-Earth Enrichment of Supra Subduction-Zone Mantle: Evidence from the Troodos Ophiolite, Cyprus. Geology, 16, 448-451. https://doi.org/10.1130/0091-7613(1988)016<0448:LREEOS>2.3.CO;2
|
[94]
|
Shatsky, N.S. (1956) Tectonic Map of the USSR and Adjacent Countries. Scale: 1:5,000,000. Geosgeolizdat, Moscow.
|
[95]
|
Kopp, M.L. (2004) Mobilistic Theory of Platforms of the South-Eastern Europe. Nauka, Moscow (In Russian).
|
[96]
|
Bosworth, W., Huchon, P. and McClay, K. (2005) The Red Sea and Gulf of Aden Basins. Journal of African Earth Sciences, 43, 334-378.
https://doi.org/10.1016/j.jafrearsci.2005.07.020
|
[97]
|
Khramov, A.N. (1987) Paleomagnetology. Springer, Berlin.
https://doi.org/10.1007/978-3-642-71750-5
|
[98]
|
Morris, A., Erson, M.W., Robertson, A.H. and Al-Riyami, K. (2002) Extreme Tectonic Rotations within an Eastern Mediterranean Ophiolite (Baer-Bassit, Syria). Earth Planetary Science Letters, 202, 247-261.
https://doi.org/10.1016/S0012-821X(02)00782-3
|
[99]
|
Ben-Avraham, Z. (1978) The Structure and Tectonic Setting of the Levant Continental Margin, Eastern Mediterranean. Tectonophysics, 46, 313-331.
https://doi.org/10.1016/0040-1951(78)90210-X
|
[100]
|
Ben-Avraham, Z. (1992) Development of Asymmetric Basins along Continental Transform Faults. Tectonophysics, 215, 209-220.
https://doi.org/10.1016/0040-1951(92)90082-H
|
[101]
|
Suetsugu, D., Isse, T., Tanaka, S., Obayashi, M., Shiobara, H., Sugioka, H., Kanazawa, T., Fukao, Y., Barruol, G. and Reymond, D. (2009) South Pacific Mantle Plumes Imaged by Seismic Observation on Islands and Seafloor. Geochemistry, Geophysics, Geosystems, 10, 1-18. https://doi.org/10.1029/2009GC002533
|
[102]
|
Anderson, D.L. (2007) New Theory of the Earth. 2nd Edition, Cambridge University Press, Cambridge.
|
[103]
|
Khain, V.E. and Koronovsky, N.V. (2007) Planet Earth from Core to Ionosphere. KDU, Moscow (In Russian).
|
[104]
|
Levin, B.W., Sasorova, E.V. and Domanski, A.V. (2013) Features of “Critical Latitudes”, Variations of Rotation and Seismicity of the Earth. Bulletin of the Far Eastern Branch of the Russian Academy of Sciences, 3, 3-8. (In Russian)
|
[105]
|
Levin, B.W., Sasorova, E.V., Steblov, G.M., Domanski, A.V., Prytkov, A.S. and Tsyba, E.N. (2017) Variations of the Earth’s Rotation Rate and Cyclic Processes in Geodynamics. Geodesy and Geodynamics, 8, 206-212.
https://doi.org/10.1016/j.geog.2017.03.007
|
[106]
|
Véronnet, A. (1912) Rotation de l’Ellipsoide Hétérogène et Figure Exacte de la Terre. Journal de Mathématiques Pures et Appliquées, 8, 331-463.
|
[107]
|
Koralov, L. and Sinai, Y.G. (2007) Theory of Probability and Random Processes. 2nd Edition, Springer, Berlin-Heidelberg.
https://doi.org/10.1007/978-3-540-68829-7
|