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Israel | |
| Howard Coopersmith, Vered Toledo, John Ward, Michiel De Wit, R Spaggiari, Emmanuel Fritsch: "Geology and Exploration of Gem Deposits at Mt. Carmel, Northern Israel: Natural Moissanite, Sapphire, Ruby & Diamond." |
| mayafiles.tase.co.il (2022) http://mayafiles.tase.co.il/RPdf/697001-698000/P697832-00.pdf Griffin, W.L., Gain, S.E.M., Adams, D.T., Huang, J-X., Saunders, M., Toledo, V., Pearson, N.J., 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(10): 815-818. |
- Southern District (HaDarom District)
- Ramat Negev Regional Council
| Woolley, Alan R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe (excluding the former USSR), Australasia and Oceanic Islands. The Geological Society of London. doi:10.1144/mpar4 Woolley, Alan R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe (excluding the former USSR), Australasia and Oceanic Islands. The Geological Society of London. doi:10.1144/mpar4 Samoilov, V. S., & Vapnik, Y. (2007). Fractional melting–the determining factor in the origin of the tephrite–basanite–nephelinite rock suite: evidence from western Makhtesh Ramon, Israel. Neues Jahrbuch für Mineralogie-Abhandlungen: Journal of Mineralogy and Geochemistry, 184(2), 181-195. Vapnik, Y., Sharygin, V. V., Samoilov, V., & Yudalevich, Z. (2007). The petrogenesis of basic and ultrabasic alkaline rocks of western Makhtesh Ramon, Israel: geochemistry, melt and fluid inclusion study. International Journal of Earth Sciences, 96(4), 663-684. Samoilov, V. S., & Vapnik, Y. (2007). Fractional melting–the determining factor in the origin of the tephrite–basanite–nephelinite rock suite: evidence from western Makhtesh Ramon, Israel. Neues Jahrbuch für Mineralogie-Abhandlungen: Journal of Mineralogy and Geochemistry, 184(2), 181-195. Vapnik, Y., Sharygin, V. V., Samoilov, V., & Yudalevich, Z. (2007). The petrogenesis of basic and ultrabasic alkaline rocks of western Makhtesh Ramon, Israel: geochemistry, melt and fluid inclusion study. International Journal of Earth Sciences, 96(4), 663-684. Vapnik, Y. (2005). Melt and fluid inclusions and mineral thermobarometry of mantle xenoliths in Makhtesh Ramon, Israel. Israel Journal of Earth Sciences, 54(1), 15-28. Vapnik, Y. (2005). Melt and fluid inclusions and mineral thermobarometry of mantle xenoliths in Makhtesh Ramon, Israel. Israel Journal of Earth Sciences, 54(1), 15-28. Eyal, M., Becker, A., & Samoylov, V. (1996). Mt. Arod–an Early Cretaceous basanitic volcano with a fossil lava lake. Isr. J. Earth Sci, 45, 31-38. Eyal, M., Becker, A., & Samoylov, V. (1996). Mt. Arod–an Early Cretaceous basanitic volcano with a fossil lava lake. Isr. J. Earth Sci, 45, 31-38. |
|
Lebanon | |
| Graham, A.L., Bevan, A.W.R. & Hutchison, B. (1985) Catalogue of Meteorites (4/e). University of Arizona Press: Tucson. Mason, B. H. (1963) Olivine composition in chondrites. Geochimica et Cosmochimica Acta 27, 1011-1023. |
|
Middle East | |
- Harrat al-Sham Volcanic field
| Weinstein, Y., Navon, O., Altherr, R., & Stein, M. (2006). The role of lithospheric mantle heterogeneity in the generation of Plio-Pleistocene alkali basaltic suites from NW Harrat Ash Shaam (Israel). Journal of Petrology, 47(5), 1017-1050. Stein, M., Garfunkel, Z., & Jagoutz, E. (1993). Chronothermometry of peridotitic and pyroxenitic xenoliths: implications for the thermal evolution of the Arabian lithosphere. Geochimica et Cosmochimica Acta, 57(6), 1325-1337. |
|
Palestine | |
| Lang, B., & Mimran, Y. A. (1985). An Early Cretaceous volcanic sequence in central Israel and its significance to the absolute date of the base of the Cretaceous. The Journal of Geology, 93(2), 179-184. |
|
Syria | |
| Ma, G. S. K., Malpas, J., Xenophontos, C., & Chan, G. H. N. (2011). Petrogenesis of latest Miocene–Quaternary continental intraplate volcanism along the northern Dead Sea Fault System (Al Ghab–Homs Volcanic Field), western Syria: evidence for lithosphere–asthenosphere interaction. Journal of Petrology, 52(2), 401-430. |