Lamprophyric rock locations in Greece

• Autorzy: Kamvisis Ioanis-Nektarios G.

Identyfikatory

DOI

10.2478/mipo-2019-0002

• Języki publikacji: EN

Abstrakty

EN

Twenty-four areas with lamprophyric formations have been located through a bibliographic search in Macedonia, Thrace, the islands and Attica. Most lamprophyre types have been identified including rare "alkali minette”. In most localities the dikes/sills appear to be late mantle products associated with deep faulting following extensional activity in granitoids.

Słowa kluczowe

EN

lamprophyric rocks; distribution; Greece; bibliography

• Wydawca: Mineralogical Society of Poland
• Czasopismo: Mineralogia
• Rocznik: 2019
• Tom: Vol. 50, iss. 1/4
• Strony: 13--33
• Opis fizyczny: Bibliogr. 112 poz., rys., tab.

Twórcy

autor

Kamvisis Ioanis-Nektarios G.

• Consultant Geologist’s office, Greek Ministry of Defence, 227 Mesogion av., Athens, Greece

Bibliografia

• Altherr, R., Henjes-Kunst, F., Matthews, A., Friedrichsen, H., & Hansen, B.T. (1988). O-Sr isotopic variations in Miocene granitoids from the Aegean. evidence for an origin by combined assimilation and fractional crystallization. Contributions to Mineralogy and Petrology 100, 528-541. DOI: 10.1007/BF00371381
• Altherr, R., Keller, J., & Kott, K. (1976). Der jungtertiäre Monzonit von Kos und sein Kontakthof (Ägäis, Griechenland). Bulletin de la Societe géologique de France 18(2), 207-216. DOI: 10.2113/gssgfbull.S7-XVIII.2.403 [in German].
• Altherr, R., & Siebel, W. (2002). I-type plutonism in a continental back-arc setting. Miocene granitoids and monzonites from the central Aegean Sea, Greece. Contributions to Mineralogy and Petrology 143, 397- 415. DOI: 10.1007/s00410-002-0352-y
• Anonymous (1978). Greek asbestos breaks ground.-Industrial Minerals 129, 47-49
• Arvanitidis N. (2018). Halkidiki, Forged from Land and Sea. Stamoulis Press, Athens, Greece, 176 p.
• Bayat, F., & Torabi, G. (2011). Alkaline lamprophyric province of Central Iran. Island Arc 20,386-400. DOI: 10.1111/j.1440-1738.2011.00776.x
• Bonsall, T. (2008). The geochemistry of carbonate-replacement Pb-Zn-Ag mineralization in the Lavrion District, Attica, Greece. fluid inclusion, stable isotope, and rare earth element studies. MSc Thesis. Iowa State University, Ames, U.S.A.,84 p.
• Bonsall, T., Spry, P., Voudouris, P., Tombros, S., Seymour, K., & Melfos, V. (2011). The Geochemistry of Carbonate-Replacement Pb-Zn-Ag Mineralization in the Lavrion District, Attica, Greece. Fluid Inclusion, Stable Isotope, and Rare Earth Element Studies. Economic Geology 106, 619-651. DOI: 10.2113/ecogeo.106.4.619
• Christofides, G. (1977). Contribution to the study of the plutonic rocks of Xanthi area PhD Thesis, University of Thessaloniki, Thessaloniki, Greece, 249 p. [in Greek]
• Christofides, G., Eleftheriadis, G., Esson, J., Soldatos, T., Koroneos, A., & Brocker, M. (2000). The evolution of the Samothraki granitic pluton (N. Aegean Sea, Greece). Geochronology, chemical and isotopic constraints for AFC modeling. In. Panayides, I., Xenofontos, C. & Malpas, J. (eds). Proceedings of the Third International Conference on the Geology of the Eastern Mediterranean, Nicosia, Cyprus, pp. 193-209
• Christofides, G., Perugini, D., Koroneos, A., Soldatos, T., Poli, G., Eleftheriadis, G., Del Moro, A., & Neiva, A.M. (2007). Interplay between geochemistry and magma dynamics during magma interaction. An example from the Sithonia Plutonic Complex (NE Greece). Lithos 95, 243-266. DOI: 10.1016/j.lithos.2006.07.015
• Christofides, G., Soldatos, T., Eleftheriadis, G., & Koroneos, A. (1998). Chemical and isotopic evidence for source contamination and crustal assimilation in the Hellenic Rhodope plutonic rocks. Acta Vulcanologica 10(2), 305-318.
• Djiba, A., Voudouris, P., Bismayer, U., Spry, P., & Alfieris, D. (2018). Porphyry-Epithermal Deposits Related to Alkaline Magmatism on Limnos Island, Northern Aegean Sea, Greece. Mineralogical Constraints and Genetic Considerations.- In 8th Geochemistry Symposium Abstract Book, Antalya, Turkey, pp. 146
• Eleutheriadis, G. (1986). Notes on the petrology of igneous rocks. University of Thessaloniki, Thessaloniki, Greece, 134 p. [in Greek]
• Eleutheriadis, G., &Koroneos, A. (2004). Notes on the petrology of igneous rocks [in Greek]. University of Thessaloniki, Thessaloniki, Greece, 243 p.
• European Goldfields (2011). Technical Report on the Olympias Project Au Pb Zn Ag Deposit, Northern Greece. Whitehorse, Canada, 213 pp.
• Flinn, D. & Oglethorpe, R.J.D. (2005). A history of the Shetland Ophiolite Complex. Scottish Journal of Geology 41(2) 141-148. DOI: 10.1144/sjg41020141
• Fouque, F.A. (1879). Santorin et ses éruptions. Masson et Cie, Paris, France, 440 p. [in French]
• Francis, D., & Patterson, M. (2009). Kimberlites and aillikites as probes of the Continental lithospheric mantle. Lithos 109, 72-80. DOI: 10.1016/j.lithos.2008.05.007
• Galeos, A. (1993). Geological map of Greece - Patmos island sheet 1.50.000. I.G.M.E., Athens, Greece
• Georgalas, G.C. (1924). Sur la constitution géologique des îles Phourni (entre Nikaria et Samos). Compte Rendu Hebdomadaire des Séances de l’ Académie des Siences, Paris 179(13), 601-604 [in French]
• Georgiades, A.N. (1938). La Kersantite du Couvent de St. Gregoire, dans le Mont Athos. Praktika Akademias Athenon 13, 487-491 [in French]
• Gülmez, F., Genc, Ç., & Prelević, D. (2014). Petrology and geochemistry of late Cretaceous lamprophyric rocks from North Anatolian Ophiolitic Melange-Turkey. EGU General Assembly Conference Geophysical Research Abstracts 16
• Haines, S. H. (1998). A structural synthesis for sector Vh of the Mademi Lakkos polymetallic sulphide deposit - Northeast Greece. MSc Thesis. University of London, London, U.K., 134 p.
• Innocenti, F., Agostini, S., Doglioni, C., Manetti, P., & Tonarini, S. (2010). Geodynamic evolution of the Aegean. constraints from the Plio-Pleistocene volcanism of the Volos-Evia area. Journal of the Geological Society of London 167, 1-15. DOI: 10.1144/0016-76492009-149
• Johannsen, A. (1938). A Descriptive Petrography of Igneous Rocks. Chicago University Press, Chicago, U.S.A., 523 p. 29
• Jung, D., Mussallam, K., Burgath, K., Kockel, F., Mohr, G., & Raschka, H. (1981). Ultramafic and related rocks of Chalkidiki. An International Symposium on Metallogeny of Mafic and Ultramafic complexes, Athens, Greece, pp. 24-42
• Kalogeropoulos, S.I., Gerouki, F., & Papadopoulos, C. (1991). Mineralogy - Geochemistry – Genesis and Metallogenetic Significance of Lamprophyres from the Stratoni. Olympias area, Kerdilia Formation, Eastern Chalkidiki. Bulletin of the Geological Society of Greece 25(2), 161-173
• Kalogeropoulos, S.I., Kilias, S.P., & Bitzios, D.C. (1989). Genesis of the Olympias Carbonate-Hosted Pb-Zn(Au, Ag) Sulfide Ore Deposit, Eastern Chalkidiki Peninsula, Northern Greece. Economic Geology 84, 1210-1234. DOI: 10.2113/gsecongeo.84.5.1210
• Kalt, A., Altherr, R., &Ludwig, T. (1998). Contact Metamorphism in Pelitic Rocks on the Island of Kos (Greece, Eastern Aegean Sea). A Test for the Na-in-Cordierite Thermometer. Journal of Petrology 39(4), 663-688. DOI: 10.1093/petroj/39.4.663
• Kamvisis, I.-N. (2010). Occurrences of lamprophyric rocks in Greece. Neues Jahrbuch fur Mineralogie Abhandlungen 187(2), 225-234. DOI: 10.1127/0077-7757/2010/0173
• Katsikatsos, G. (in press). Geological map of Greece- Fourni island sheet 1.50.000. I.G.M.E., Athens, Greece
• Kilias, S.P., Kalogeropoulos, S.I. & Konnerup-Madsen, J. (1996). Fluid inclusion evidence for the physicochemical conditions of sulfide deposition in the Olympias carbonate-hosted Pb-Zn(Au, Ag) sulfide ore deposit, E. Chalkidiki peninsula, N. Greece. Mineralium Deposita 31, 394-406. DOI: 10.1007/BF00189187
• Kokkinakis, A. (2007). Magmatic rocks - 3rd Ed. [in Greek]
• Kolokotroni, C. (1992). The emplacement and petrogenesis of the Vrondou granitoid pluton, Rhodope massif, NE Greece. PhD Thesis. University of Edinburgh, Edinburgh, U.K., 487 p.
• Koukouvelas, I., & Pe-Piper, G. (1991). The Oligocene Xanthi pluton, northern Greece. A granodiorite emplaced during regional extension. Journal of the Geological Society of London 148, 749-758. DOI: 10.1144/gsjgs.148.4.0749
• Krmíček, L. (2010). Pre-Mesozoic lamprophyres and lamproites of the Bohemian Massif (Czech Republic, Poland, Germany, Austria). Mineralogia Special Papers 37, 37-46
• Ktenas, K. (1917). Research about the metallogenessis of the S.E. Aegiis region. Publication of the University of Athens 13, 1-44 [in Greek]
• Ktenas, C. A. (1928). Sur la présence des laves alcalines dans la mer Égée septentrionale. Compte Rendu Hebdomadaire des Séances de l’ Académie des Siences, Paris 186, 1631-1633 [in French]
• Le Maitre, R.W. (2002). Igneous rocks. a Classification and Glossary of Terms. Recommendations of the International Union of Geological Sciences Subcommission on the Systematics of Igneous Rocks. 2nd Ed., Cambridge University Press, Cambridge, U.K., 236 pp.
• Maar, P.A. van der (1980). The geology and petrology of Ios, Cyclades, Greece. Annales Geologiques des Pays Helleniques 30, 206-224
• Maar, P.A. van der (1981a). Geological map of Greece, los island sheet 1.50.000. I.G.M.E., Athens, Greece
• Maar, P.A. van der (1981b). Metamorphism on Ios and the geological history of southern Cyclades, Greece. Geologica Ultraiectina 28, 1-142
• Maar, P.A. van der, & Jansen, J.B.H. (1983). The geology of the polymetamorphic complex of Ios, Cyclades, Greece and its significance for the Cycladic Massif. Geologische Rundschau 72, 283-299. DOI: 10.1007/BF01765910
• Maltezou, F., Kalogeropoulos, S., & Hamilton, N. (1989). A geophysical study in the eastern Chalkidiki peninsula, N. Greece. the Stratoni granodiorite and its significance to metallogeny. In Proceedings of the Panhellenic Conferences on Geophysics, pp. 336-353
• Marchev, P., Arai, S., & Vaselli, O. (2006). Cumulate xenoliths in Oligocene alkaline basaltic and lamprophyric dikes from the eastern Rhodopes, Bulgaria. Evidence for the existence of layered plutons under the metamorphic core complexes. Geological Society of America Special Papers 409, 237-258
• Marchev, P., Vaselli, O., Downes, H., Pinarelli, L., Ingram, G., Rogers, G., & Raicheva, R. (1998). Petrology and geochemistry of alkaline basalts and lamprophyres. implications for the chemical composition of the upper mantle beneath the Eastern Rhodopes (Bulgaria). Acta Vulcanologica 10(2), 233-242
• Marinos, G. (1951). The Geology and metallogenessis of the Island of Seriphos. Geological and Geophysical Surveys 1(4), 95-127. [in Greek].
• McFall, K., Naden, J., Roberts, S., Baker, T., Spratt, J., & McDonald. I. (2018). Platinum-group minerals in the Skouries Cu-Au (Pd, Pt, Te) porphyry deposit. Ore Geology Reviews 99, 344-364. DOI: 10.1016/j.oregeorev.2018.06.014
• Melidonis, N.G. (1972). Der Bogen junger vulkanischer Gesteine zwischen Strymonikon und Metamorphosis (Mazedonien). Mineral Exploration 5, I.G.S.R., Athens, 51 p. [in Greek].
• Melidonis, N.G. (1980). Geological structure and ore deposits of Tinos island (Cyclades) I.G.M.E., Athens, 80 p. [in Greek].
• Michailidis, K., & Sofianska, E. (2010). Spheroidal and radiating aggregates of Mn- pyroxenoids in the Olympias carbonate-hosted polymetallic sulphide ore deposit, E. Chalkidiki peninsula, N. Greece. Review of the Bulgarian Geological Society 71 (1-3), 59-68
• Mitchell, R.H., & Bergman, S.C. (1991). Petrology of Lamproites. Plenum Press, New York, U.S.A., 447 p.
• Modis K. & Komnitsas K. (2007). Optimum sampling density for the prediction of acid mine drainage in an underground sulphide mine. In. Cidu, R. & Frau, F. (eds). IMWA Symposium 2007: Water in Mining Environments, Cagliari, Italy, pp. 99-103
• Mussallam, K., & Jung, D. (1986). Petrology and geotectonic significance of salic rocks preceding ophiolites in the eastern Vardar Zone, Greece. Tschermaks mineralogische und petrographische Mitteilungen 35, 217-242. DOI: 10.1007/BF01191987
• Nestorov, N. (2013). Geological modelling and Geostatistics- Research on the sulphide deposit of Maddem Lakkos Chalkidiki. MSc Thesis, University of Thessaloniki, Thessaloniki, Greece, 126 p. [in Greek]
• Netelbeek, T.A.F. (1959). Lamprophyres in the ultrabasics south of Kozani. Bulletin of the Geological Society of Greece 4(1), 6-10
• Neuendorf, K.K.E., Mehl, J.P., & Jackson, J.A. (2005). Glossary of Geology. 5th Ed., Springer Science and Business, 779 p.
• Nicolaou, M.M. (1960). L’ intrusion granitique dans le région de Stratoni – Olympiade et sa relations avec la métallogenèse. Annales Géologiques des Pays Helléniques 11, 214-265 [in Greek]
• Nikolaou M.M. & Kokonis I. (1980). Geology and development of the Olympias mine, eastern Chalkidiki, Macedonia, Greece. In. Jones M.J. (eds). Complex sulphides ores, Institute Mining Metallurgy, London, U.K. pp. 260-270
• Oladeji, A. J. (1997). Geology and Petrography of the Arnea granite, Chalkidiki Province [in Greek]. PhD Thesis. Aristotle University of Thessaloniki, Thessaloniki, Greece, 181 p.
• O’Neill, C., & Wyman, D.A (2006). Geodynamic modelling of Late Archean subduction. Pressuretemperature constraints from greenstone belt diamond deposits. Washington DC American Geophysical Union Geophysical Monograph Series 164, 177-188
• Orris, G. (1993). Zidani. U.S. Geological Survey, Mineral Resources Data System. Retrieved April 7, 2019 from U.S. Geological Survey database: https.//mrdata.usgs.gov/mrds/
• Pandey, A., Rao, N.V.C., Chakrabarti, R., Pandit, D., Pankaj, P., Kumar, A., & Sahoo, S. (2017). Petrogenesis of a Mesoproterozoic shoshonitic lamprophyre dike from the Wajrakarur kimberlite field, eastern Dharwar craton, southern India: Geochemical and Sr-Nd isotopic evidence for a modified sub-continental lithospheric mantle source. Lithos 292-293, 218-233. DOI: 10.1016/j.lithos.2017.09.001
• Pantziris, I. (2000). Geochemical-Petrological study of the basic-ultrabasic rocks of the islands of the Aegean. PhD Thesis. University of Athens, Athens, Greece, 466 p. [in Greek]
• Papadakis, A. (1971). On the age of the granitic intrusion near Stratonion, Chalkidiki (Greece). Annales Géologiques des Pays Helléniques 23(1), 297-300 [in Greek]
• Papadopoulos, A. (2011). Natural radioactivity in relation to mineralogy, Uranium and Thorium geochemistry of magmatic rocks from the vicinity of Greece: Contribution to the use of natural construction materials. PhD Thesis. Aristotle University of Thessaloniki, Thessaloniki, Greece, 297 p. [in Greek]
• Pe-Piper, G., & Moulton, B. (2008). Magma evolution in the Pliocene-Pleistocene succession of Kos, South Aegean arc (Greece). Lithos 106, 110-124 DOI: 10.1016/j.lithos.2008.07.002
• Pe-Piper, G., & Piper, D.J.W. (2002). The igneous rocks of Greece. Gebrüder Borntraeger, Stuttgart, 645 p.
• Pe-Piper, G., & Piper, D.J.W. (2007a). Late Miocene igneous rocks of Samos. the role of tectonism in petrogenesis in the southestern Aegean.- In. Taymaz T., Yilmaz Y. and Dilek Y. (eds.). The Geodynamics of the Aegean and Anatolia. Geological Society of London Special Publications 291. pp. 75-97 DOI: 10.1144/SP291.4
• Pe-Piper, G. & Piper, D.J.W. (2007b). Neogene backarc volcanism of the Aegean. New insights into the relationship between magmatism and tectonics.- In. Beccaluva, L., Bianchini, G., & Wilson, M. (eds). Cenozoic Volcanism in the Mediterranean Area. Geological Society of America Special Papers 418, pp. 17-31
• Pe-Piper, G., Piper, D.J.W., & Perissoratis, C. (2005). Neotectonics and the Kos Plateau Tuff eruption of 161 ka, South Aegean arc. Journal of Volcanology and Geothermal Research 139, 315-338. DOI: 10.1016/j.volgeores.2004.08.014
• Perugini, D., Poli, G., Christofides, G., Eleftheriadis, G., Koroneos, A., & Soldatos, T. (2004). Mantle-derived and crustal melts dichotomy in northern Greece. spatiotemporal and geodynamic implications. Geological Journal 39, 63-80 DOI: 10.1002/gj.944
• Peterson, T.D., Esperanca, S., & Le Cheminant, A.N. (1994). Geochemistry and origin of the Proterozoic ultrapotassic rocks of the Churchill Province, Canada. Mineralogy and Petrology 51, 251-276. DOI: 10.1007/BF01159732
• Petrakakis, K., Zamolyi, A., Iglseder, C., Rambousek, C., Grasemann, B., Draganits, E., & Photiades, A. (in press). Geological map of Greece. Serifos island sheet 1.50.000.I.G.M.E., Athens, Greece
• Pipera, K. (2015). Study of the high potassium magmatism in Northern Greece. Implications for the mantle Geochemistry and the Geodynamic evolution of the area. PhD Thesis. University of Thessaloniki, Thessaloniki, Greece, 324 p.
• Poli, G., Christofides, G., Koroneos, A., Soldatos, T.,Papadopoulou, L., Manetti, P., Papadopoulos, A., & Rocchi, S. (2012). Petrogenesis of Eocene Agios Gregorios Plutonic Complex (Mt. Athos, Chalkidiki, Greece): interplay between magma mixing, assimilation, and fractional crystallization. Acta Vulcanologica 25(1/2), 121-152
• Prelević, D. (2010). The role of magma mixing in the origin of minette lamprophyres, examples from Mediterranean Tertiary volcanic provinces. Mineralogia Special Papers 37, 52-54
• Prelević, D., Foley, S.F., & Cvetkovic, V. (2007). A review of petrogenesis of Mediterranean Tertiary lamproites. A perspective from the Serbian ultrapotassic province. In. Beccaluva, L., Bianchini, G., & Wilson, M. (eds). Cenozoic Volcanism in the Mediterranean Area. Geological Society of America Special Papers 418, pp.113-129
• Puchelt, H., Murad, E., & Hubberten, H.W. (1977). Geochemical and petrological studies of lavas, pyroclastics and associated xenoliths from the Christiana Islands, Aegean Sea. Neues Jahrbuch fur Mineralogie Abhandlungen 131, 140-155
• Rock, N.M.S. (1991). Lamprophyres. Blackie and Son Ltd., Glasgow, U.K., 285 p.
• Roussos, N. (1993). Geological map of Greece. Limnos island sheet (Myrina and Moudros) 1.50.000. I.G.M.E., Athens, Greece
• Satian, MA., Sahakyan, LH., & Stepanyan ZH. (2009). Composition of tuffs from lamprophyre diatremes of the Vedi rift, Armenia. Lithology and Mineral Resources 44(4), 399 DOI: 10.1134/S0024490209040087
• Scarrow, J., Molina, J.F., Bea, F., Vaughan, A. (2011). Lamprophyre dikes as tectonic markers of late orogenic transtension timing and kinematics. A case study from the Central Iberian Zone. Tectonics 30(4), 1-22. DOI: 10.1029/2010TC002755
• Searle, M.P. (1984). Alkaline peridotite, pyroxenite and gabbroic intrusions in the Oman Mountains, Arabia. Canadian Journal of Earth Sciences 21, 396-406 DOI: 10.1139/e84-043
• Sergi, A. (1997). Mafic microgranular enclaves from the Xanthi pluton (Northern Greece). An example of mafic-felsic magma interaction. Mineralogy and Petrology 61, 97-117 DOI: 10.1007/BF01172479
• Skarpelis, N.S., Kyriakopoulos, K., & Villa, I. (1992). Occurrence and 40Ar/39Ar dating of a granite in Thera (Santorini, Greece). Geologische Rundschau 81, 729-735 DOI: 10.1007/BF01791388
• Soder, C. (2017). Geochemistry and petrology of lamprophyres from the Hellenides and the European Variscides. PhD Thesis. University of Heidelberg, Heidelberg, Germany, 201 p.
• Soder, C., Altherr, R., & Romer, R.L. (2015). Mantle metasomatism in a complex subductioncollision scenario: The Late Miocene lamprophyres from the Island of Kos (SE-Aegean). Goldschmidt Abstracts, Prague, Czech Republic, 2938
• Soder, C., Altherr, R., Romer, R. (2016). Mantle metasomatism at the edge of a retreating subduction zone. Late Neogene lamprophyres from the island of Kos, Greece. Journal of Petrology 57(9), 1705-1728. DOI: 10.1093/petrology//egw054
• Soldatos, T., Poli, G., Christofides, G., Eleftheriadis, G., Koroneos, A., & Tommasini, S. (1998). Petrology and evolution of transitional alkaline- subalkaline granitoids from Vrondou (NE Greece). evidence for fractional crystallization and magma mixing. Acta Vulcanologica 10(2), 319-330
• Spišiak, J. (2010). Lamprophyres of the Western Carpathian crystalline complexes; petrology and geochemistry. Mineralogia Special Papers 37, 59-60
• Stouraiti, C. (1995). Geochemistry and petrogenesis of the Serifos granite, in relation to other Aegean granitoids, Greece. PhD Thesis, University of Leicester, Leicester, U.K., 249 p.
• Stouraiti, C., Baziotis, I., Asimow, P.D. & Downes, H. (2018). Geochemistry of the Serifos calcalkaline granodiorite pluton, Greece, constraining the crust and mantle contributions to I-type granitoids. International Journal of Earth Sciences 107(5), 1657-1688 DOI: 10.1007/s00531-017-1565-7
• Streckeisen, A. (1978). IUGS Subcommission on the Systematics of Igneous Rocks. Classification and nomenclature of volcanic rocks, lamprophyres, carbonatites and melilitic rocks. Recommendations and suggestions. Neues Jahrbuch fur Mineralogie Abhandlungen 134, 1-14
• Sutphin, D., Hammarstrom, J., Drew, L., Large, D., Berger, B., Dicken, C. & DeMarr, M. (2013). Fakos. U.S. Geological Survey, Mineral Resources Data System. Retrieved April 7, 2019 from U.S. Geological Survey database: https.//mrdata.usgs.gov/mrds/. DOI: 10.3133/sir20105090K
• Tappe, S., Foley, S.F., Jenner, G.A., & Kjarsgaard, B.A. (2005). Integrating Ultramafic Lamprophyres into the IUGS Classification of Igneous Rocks. Rationale and Implications. Journal of Petrology 46(9), 1893-1900. DOI: 10.1093/petrology/egi039
• Taylor, G.K. (1988). A palaeomagnetic study of a Caledonian ophiolite. Geophysical Journal International 94(1), 157-166 DOI:10.1111/j.1365-246X.1988.tb03435.x
• Tomkeieff, S.I., Walton, E.K., Randal, B.A.O., Battey, M.H., & Tomkeieff, O. (1983). Dictionary of Petrology. Wiley, New York, U.S.A., 680 p.
• Tröger, W.E. (1969). Spezielle Petrographie der Eruptivgesteine. Verlag der Deutschen Mineralogischen Gesellschaft, Stuttgart, Germany, 440 p. [in German].
• Tsoukalas, N. (2008). Stratigraphy of the Upper Miocene Volcanic rocks of the Island of Kos, Greece. Geodynamic Implications. MSc Thesis, Saint Mary’s University, Halifax, Canada
• Ulrych, J., Adamovic, J., Krmíček, L., Ackerman, L., & Balogh, K. (2014). Revision of Scheumann’s classification of melilitic lamprophyres and related melilitic rocks in light of new analytical data. Journal of Geosciences 59(1), 3-22 DOI: 10.3190/jgeosci.158
• Vasilatos, Ch. (2013). Comparative study of the trace element and rare earth geochemistry of the Tertiary granitic bodies of Central Macedonia which are related or not to a well-known metallogeny – Identification of the geotectonic environment of genesis of the source magma of the granitic bodies. PhD Thesis. University of Athens, Athens, Greece, 502 p. [in Greek]
• Voudouris, P. (2006). A comparative mineralogical study of Te- rich magmatic- hydrothermal systems in northeastern Greece. Mineralogy and Petrology 87, 241-275. DOI: 10.1007/s00710-006-0131-y
• Voudouris, P. (2010). Gold deposits in Greece. mineralogy and genetic considerations. Invited Lecture. S.M.E.G.D. in association to GSA-NSW Division. DOI: 10.13140/RG.2.2.35852.00643
• Voudouris, P., Melfos, V., Spry, P. & Baker, T. (2016). Cenozoic Porhyry-Epithermal and Other Intrusion-Related Deposits in Northeastern Greece. Geological, Mineralogical and Geochemical Constraints. In. Voudouris, P., Siron, C., & Marton, I. (eds). Eocene to Miocene Hydrothermal Deposits of Northern Greece and Bulgaria. Relationships Between Tectonic-Magmatic Activity, Alteration and Gold Mineralization. Guidebook Series of the Society of Economic Geologists 54, pp. 43-82
• Wilson, M. (1989). Igneous Petrogenesis. Hyman, London, U.K., 466 p.
• Wimmenauer, W. (1977). Lamprophyres and associated rocks in the dike suite of the Dikeos monzonite, Kos (Greece). Annales Géologiques des Pays Helléniques 28, 427-435
• Woolley, A.R., Bergman, S.C., Edgar, A.D., Le Bas, M.J., Mitchell, R.H., Rock, N.M.S., & Smith, B.H.S. (1996). Classification of lamprophyres, lamproites, kimberlites, and the kalsilitic, melilitic and leucitic rocks. Canadian Mineralogist 34,175-186
• Xydous, S. (2018). Late-stage B-bearing fluid circulation in the Kavala pluton. Evidence from mineralogical, spectroscopic and geochemical data in tourmaline-rich fault-related rocks. MSc Thesis, University of Athens, Athens, Greece, 87 p.
• Zananiri, I. (2004). Contribution to the study of the geotectonic evolution of the Rhodope massif with the application of magnetic methods (AMS Anisotropy of Magnetic Susceptibility) in granitic rocks. PhD Thesis. University of Thessaloniki, Thessaloniki, Greece, 255 p. [in Greek]
• Zouzias, D. (2011). Sustainable Development of the Nisyros volcano and new volcanological characteristic data of the broader area and with the help of remote sensing . PhD Thesis. University of Patras, Patra, Greece, 511 p. [in Greek].