Kónya Péter (szerk.): A Bakony-Balaton-felvidék vulkáni terület ásványai - TQS Monographs 1. (Miskolc - Budapest, 2015)

Kónya P. et al.: A Bakony-Balaton-felvidék vulkáni terület üregkitöltő agyagásványai

170 Kónya P. elai: Chipera, S. J. & Apps, J. A. (2001): Geochemical stability of natural zeolites. — In: Bish, D. L. & Ming, D. W. (eds.): Natural Zeolites: Occurrence, properties, applications, Rev. Mineral, and Geochem., 45,117-161. Erdélyi, J., Koblencz, V. & Tolnay, V. (1959a): Montmorillonit aus den Spalten des Basaltes vom Badacsony Berg. —Acta Mineral- Petrogr., 12,73-84. Erdélyi J., Koblencz V. & Tolnay V. (1959b): A Badacsony bazaltjának repedéseiben előforduló montmorillonit [Montmorillonite from fractures of basalt from Badacsony Hill ]. — Kézirat (Manuscript in Hung.). MAFGB A, Budapest. (In Hung.) Eshaghpoer, M. (2003): Borehole geology and alteration mineralogy of well HE-9 in Hellisheidi Geothermal Field, SW-Iceland. — The United Nations University Geothermal Training Programme, 8, Iceland, 165-187. Franus, W. (1999): (Sr,Ba) phillipsite-Ca and chabazite from, Józef ’ basalt deposit in Zariba (Lower Silesia).—Mineral. Pol, 30 (1), 17-32. Getaneh, E. (2001): Borehole geology and alteration mineralogy in the upper half of well HE-3, Hellisheidi, SW-Iceland. — The United Nations University Geothermal Training Programme, 4, Iceland, 59-82. Graham, I. T., Pogson, R. E., Colchester, D. M. & Baines, A. (2003): Zeolite crystal habits, compositions, andparagenesis; Blackhead Quarry, Dunedin, New Zealand. —Mineral. Mag., 67, 625-637. Honnorez, J., Laverne, C., Hubberten, H.-W., Emmermann, R. & Muehlenbachs, K. (1983): Alteration processes in Layer 2 basalts from Deep Sea Drilling Project Hole 504B, Costa Rica Rift. —Init. Rep. Deep Sea Drilling Project, 69, 509-546. Ianovici, V., Neac§u, G. & Neac§u, V. (1983): Saponite from Moldova Noua, Romania. — Clay Min., 18, 205-207. Jakobsson, S. P. & Moore, J. G. (1986): Hydrothermal minerals and alteration rates at Surtsey volcano, Iceland. — Bull. Geol. Soc. Am., 97 (5), 648-659. Jorgensen, O. (2006): The regional distribution of zeolites in the basalts of the Faroe Islands and the significance of zeolites as palaeotemperature indicators. — Geol. Surv. Denmark Greenland Bull., 9,123-156. Kákay Szabó О. (1983): A mauritzit újravizsgálata (Die Neuuntersuchung von Mauritzit). —-Földt. Közi, 113,333-356. (In Hung, with German abstract) Kodama, H., De Kimpe, C. R. & Dejou, J. (1988): Ferrian saponite in a gabbro saprolite at Mont Mégantic, Quebec. — Clays Clay Min., 36,102-110. Köster, H. M. (1960): Nontronit und Picotit aus dem Basalt des Ölberges bei Hundsangen, Westerwald. —Beitr. Mineral. Petrogr., 7 (2), 71-75. Lagat, J. K. (2004): Geology, hydrothermal alteration and fluid inclusion studies of Olkaria Domes geothermal field, Kenya. — Manuscript, MSc thesis. Departement of Geology and Geography University of Iceland, Reykjavik. Larsen, G., Plum, K-H. & Förster, H. (1991): Zeolites and other hydrothermal alteration products of synthetic glasses. — Eur. J. Mineral., 3, 933-941. MacEwan, D. M. C. (1946): The identification and estimation of the montmorillonite group of minerals with special reference to soil clays. —J. Soc. Chem. Ind., 65 (10). 294—305. Mauritz B. (1937): A halápi és gulácsi bazalt hólyagüregeiben keletkezett ásványok (Die Mineralien der Blasenräume im Basalt vom Haláp und Gulács [Plattenseegebiet]). — Mat. Term.tud. Értés., 55, 923-937. (In Hung, with German abstract) Mauritz В. (1958): Újabb ásványkőzettani érdekességek hazánkban (Neuere mineralogisch-petrologische Beobachtungen in Ungarn). — Földt. Közi, 88,447—452. (In Hung, with German abstract) Nemecz E. (1973): Agyagásványok [Clay minerals], — Budapest: Akadémiai Kiadó. (In Hung.) Neuhoff, P. S., Fridriksson, Th., Arnórsson, S. & Bird, D. K. (1999): Porosity evolution and mineral paragenesis during low-grade metamorphism of basaltic lavas at Teigarhorn, Eastern Iceland. —Am. J. Sei., 299 (6), 467-501. Nouraliee, J. (2000): Borehole geology and hydrothermal alteration of well NL-20, Nesjavellir high-temperature area, SW-Iceland. — The United Nations University Geothermal Training Programme, 15, Iceland, 303-330. Omenda, P. E. (1998): The geology and structural controls of the Olkaria geothermal system, Kenya. — Geothermics, 27 (1), 55-74. Robert, C. (2001): Hydrothermal alteration processes of the Tertiary lavas of Northern Ireland. •—Mineral Mag., 65,543-554. Robert, C. & Goffé, В. (1993): Zeolitization of basalts in subaqueous freshwater settings: field observation and experimental study. — Geochim. Cosmochim. Acta, 57, 3597-3612. Robinson, D., Bevins, R. E. & Rowbotham, G. (1993): The characterization of mafic phyllosilicates in low-grade metabasalts from eastern North Greenland. —Am. Mineral., 78,377-390. Shau, Y-H. & Peacor, D. R. (1992): Phyllosilicates in hydrothermally altered basalts from DSDP Hole 504B, Leg 83-а ТЕМ and AEM study. — Contr. Mineral Petrol., 112, 119-133. Sukheswala, R. N., Avasia, R. K. & Gangopadhyay, M. (1974): Zeolites and associated secondary minerals in the Deccan Traps of Western India. — Mineral. Mag., 39, 658-671. Szakáll, S. & Jánosi, M. (1996): Minerals of Hungary. — Topogr. Mineral. Hung., 4, Miskolc: HOM, 99-110. Thorez, J. (1976): Practical identification of clay minerals. A handbook for teachers and students in clay mineralogy. — Dison: G. Lelőtte. Thorez, J. (1995): Practical clay geology.—Manuscript. Postgraduate and Graduate Courses in Geology of “Eötvös Loránd” University of Sciences, Department of Applied and Enviromental Geology, Budapest. Weiszburg X, Bada G., Dódony I., Jánosi M., Lovas Gy., Nagy-Balogh J., Nagy-Czakó I., Nagy S. & Papp G. (1993): A „mauritzit”, Erdőbénye nevezetes szaponit-változata. (“Mauritzite”, a special saponite variety from Erdőbénye). — In: Papp G., Szakáll S. & Weiszburg T. (szerk.): Az erdőbényei Mulató-hegy ásványai. Topogr. Mineral. Hung., 1, Miskolc: HOM, 57-68. (In Hung, with English abstract) Weiszburg T., Tóth E., Kuzmann E. & Lovas Gy. (1999): Vasgazdag trioktaéderes szmektit a dunabogdányi Csódi-hegyről (An iron rich trioctahedral smectite from Csódi Hill [Dunabogdány, Visegrád Mts., Hungary]). — In: Papp G. (szerk.): A dunabogdányi Csódi-hegy ásványai. Topogr. Mineral. Hung., 6, Miskolc: HOM, 179-190. (In Hung, with English abstract)

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