Abstract
The pyroclastic sediments studied here contained varied amounts of zeolite and were formed in the saline alkaline Tuzgölü Basin following the alteration of dacitic volcanic materials during the Early to Late Miocene. The present study focused on the geological-geochemical properties of the zeolites and describes their formation. Mineralogical and chemical compositions were determined by X-ray diffraction, scanning electron microscopy, optical microscopy, and inductively coupled plasma mass spectrometry. Results indicated that the zeolitic tuffs consisted mainly of heulandite/clinoptilolite (Hul/Cpt), chabazite, erionite, and analcime associated with smectite. Smectite, calcite, and dolomite are abundant in the clay and carbonate layers which alternate with the zeolitic tuffs. K-feldspar, gypsum, and hexahydrite (MgSO4·6H2O) were also found in some altered tuffs and clay-marl layers as accessory minerals. The zeolite and other authigenic minerals showed weak stratigraphic zonation. Some vitric tuff layers contained no zeolite minerals and others were found to consist of almost pure Hul/Cpt and chabazite layers with economic potential. The rare earth elements (REE), large ion lithophile elements (LILE), and high-field strength elements (HFSE) in the Hul/Cpt-rich tuffs and vitric tuffs were enriched or depleted relative to the precursor rock, while many major elements were slightly or significantly depleted in all zeolitic tuffs. The amounts of REE in the chabazite- and erionite-rich tuffs were generally smaller than those in the precursor rock. The middle and heavy REE (MREE and HREE, respectively) were abundant in the Hul/Cpt-rich tuffs, tuffs, and smectitic bentonites. Chondrite-normalized REE values of the sample groups are characterized by sub-parallel patterns with enrichment in LREE relative to HREE. The mineral assemblages and geological setting indicated that zeolite diagenesis occurred in a saline-alkaline basin. The δ18O and δD compositions of the Hul/Cpt, chabazite, and smectite indicated that the minerals formed at low to moderate temperatures and that some of the zeolitization occurred due to diagenetic alteration under closed-system conditions that varied according to the nature of the basin and with the composition and physical properties of the volcanic materials.
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References
Bayarı, C.S, Özyurt, N.N., and Kilani, S. (2009) Radiocarbon age distribution of groundwater in the Konya Closed Basin, central Anatolia, Turkey. Hydrogeology Journal, 17, 347–365.
Boynton, W.V. (1984) Geochemistry of rare earth elements: meteorite studies. Pp. 63–114 in: Rare Earth Element Geochemistry (P. Henderson, editor). Elsevier, Amsterdam.
Broxton, D.E., Bish, D.L., and Warren, R.E. (1987) Distribution and chemistry of diagenetic minerals at Yucca Mountain, Nye County, Nevada. Clays and Clay Minerals, 35, 89–110.
Caballero, E., Reyes, E., Huertas, F., Linares, J., and Puzzuoli, A. (1991) Early-stage smectites from pyroclastic rocks of Almena (Spain). Chemical Geology, 89, 353–358.
Christidis, G. (1998) Comparative study of the mobility of major and trace elements during alteration of an andesitic and a rhyolitic rock to bentonite in the islands of Milos and Kimolos, Aegean, Greece. Clays and Clay Minerals, 46, 379–399.
Christidis, G., Scott, R.W., and Marcopoulos, T. (1995) Origin of the bentonite deposits of Eastern Milos, Aegean, Greece. Geological, mineralogical, and geochemical evidence. Clays and Clay Minerals, 43, 63–77.
Cullers, R.L., and Graf, J.L. (1984) Rare earth elements in igneous rocks of the continental crust: Predominantly basic and ultrabasic rocks. Pp. 275–308 in: Rare Earth Element Geochemistry (P. Henderson, editor). Elsevier, Amsterdam.
Escande, M.A., Decarreau, A., and Labeyrie, L. (1984) Etude expérimentale de l’échangeabilitédes isotopes de l’oxygène des smectites. Comptes Rendus de l’Académie des Sciences, 229, 707–710.
Esenli, F. and Kumbasar, I. (1998) X-ray diffraction intensity ratios I(111)/I(3̅11) of natural heulandites and clinoptilolites. Clays and Clay Minerals, 46, 679–686.
Esenli, F. and Özpeker, I. (1993) Zeolitic diagenesis of Neogene basin and the mineralogy of heulandite-clinoptilolite around Gördes. Geological Bulletin of Turkey, 8, 1–18.
Esenli, F. and Sirkecioğlu, A. (2005) The relationship between zeolite (heulandite-clinoptilolite) content and the ammonium-exchange capacity of pyroclastic rocks in Gördes, Turkey. Clay Minerals, 40, 557–564.
Eugster, H.P. (1970) Chemistry and origin of the brines from Lake Magadi, Kenya. Mineralogical Society of America Special Paper, 3, 215–235.
Eugster, H.P. (1980) Geochemistry of evaporitic lacustrine deposits. Annual Review of Earth and Planetary Sciences, 8, 35–63.
Eugster, H.P. and Hardie, L.A. (1978) Saline lakes. Pp. 237–289 in: Lakes: Chemistry, Geology, Physics (A. Lerman, editor). Springer, New York.
Feng, X. and Savin, S.M. (1993) Oxygen isotope studies of zeolites — stilbite, analcime, heulandite, and clinoptilolite, III: Oxygen isotope fractionation between stilbite and water or water vapor. Geochimica et Cosmochimica Acta, 57, 4239–4247.
Gottardi, G. (1989) The genesis of zeolites. European Journal of Mineralogy, 1, 479–487.
Görür, M.N., Oktay, F.Y., Seymen, O., and Şengör, A.M.C. (1984) Paleotectonic evolution of the Tuzgölü basin complex, Central Turkey: sedimentary record of a Neo-Tethyan closure. Pp. 467–482 in: The Geological Evolution of the Mediterranean (J.E. Dixon and A.H.F. Robertson, editors). Geological Society, London.
Gromet, L.P., Dymek, R.F., Haskin, L.A., and Korotev, R.L. (1984) The North American shale composite: Its composition, major and trace element characteristics. Geochimica et Cosmochimica Acta, 48, 2469–2482.
Gündoğdu, M.N. (1982) Neojen yaşlı Bigadiç sedimanter baseninin jeolojik, mineralojik ve jeokimyasal incelenmesi. PhD thesis, Hacettepe University, Ankara, Turkey, 386 pp.
Gündoğdu, M.N., Yalçın, H., Temel, A., and Clauer, N. (1996) Geological, mineralogical and geochemical characteristics of zeolite deposits associated with borates in the Bigadiç Emet and Kırka Neogene lacustrine basins, western Turkey. Mineralium Deposita, 31, 492–513.
Gürer, O.F. and Aldanmaz, E. (2002) Origin of the Upper Cretaceous-Tertiary sedimentary basins within the Tauride-Anatolide platform in Turkey. Geological Magazine, 139, 191–197.
Hay, R.L. (1966) Zeolites and zeolitic reactions in sedimentary rocks. Geological Society of America Special Paper, 85, 130 pp.
Hay, R.L. (1978) Geologic occurrence of zeolites. Pp. 135–143 in: Natural Zeolites: Occurrence, Properties, Use (L.B. Sand and F.A. Mumpton, editors). Pergamon, Elmsford, New York.
Hay, R.L. and Guldman, S.G. (1987) Diagenetic alteration of silicic ash in Searles Lake, California. Clays and Clay Minerals, 35, 449–457.
Hay, R.L. and Sheppard, R.A. (1977) Zeolites in open hydrologic systems. Pp. 93–102 in: Mineralogy and Geology of Natural Zeolites (F.A. Mumpton, editor). Short Course Notes 4, Mineralogical Society of America, Washington, D.C.
Hay, R.L. and Sheppard, R.A. (2001) Occurrence of zeolites in sedimentary rocks: an overview. Pp. 217–234 in: Natural Zeolites: Occurrence, Properties, Applications (D. Bish and D. Ming, editors). Reviews in Mineralogy, 45, Mineralogical Society of America, Washington.
Helvacı, C., Stamatakis, M.G., Zagouroğlou, C., and Kanaris, J. (1993) Borate minerals and related authigenic silicates in northeastern Mediterranean late Miocene continental basins. Exploration and Mining Geology, 2, 171–178.
Hernandez, J.E.G., Notario del Pino, J.S., Gonzalez Martin, M.M., Hernan Reguera, F., and Rodriguez Losada, J.A. (1993) Zeolites in pyroclastic deposits in southeastern Tenerife (Canary Islands). Clays and Clay Minerals, 41, 521–526.
Huang, T.M. and Pang, Z.H. (2012) The role of deuterium excess in determining the water salinisation mechanism: A case study of the arid Tarim River Basin, NW China. Applied Geochemistry, 27, 2382–2388.
Iijima, A. (1978) Geological occurrences of zeolites in marine environments. Pp. 175–198 in: Natural Zeol ites: Occurrence, Properties, Use (L.B. Sand and F.A. Mumpton, editors). Pergamon Press, New York.
Innocenti, F., Mazzuoli, R., Pasquare, G., Radicati Di Brozolo, F., and Villari, L. (1975) The Neogene calcalkaline volcanism of central Anatolia: Geochronological data on Kayseri-Niğde area. Geological Magazine, 112, 349–360.
Kaçmaz, H. and Köktürk, U. (2004) Geochemistry and mineralogy of zeolitic tuffs from the Alaçatı (Ceşme) area, Turkey. Clays and Clay Minerals, 52, 705–713.
Karakaya, N. (2009) REE and HFS element behaviour in the alteration facies of the Erenler Dağıvolcanics (Konya, Turkey) and kaolinite occurrence. Journal of Geochemical Exploration, 101, 185–208.
Karakaya, M.Ç., Karakaya, N., and Küpeli, Ş. (2011) Mineralogical and geochemical properties of the Na- and Ca-bentonites of Ordu (N.E. Turkey). Clays and Clay Minerals, 59, 75–94.
Karakaya, N., Karakaya, M.Ç., and Yavuz, F. (2012) Investigation of mineralogic, geochemical and some technologic properties of zeolite occurrences in around of Kulu (Konya) and Haymana (Ankara). TÜBİTAK 109Y301, 200 pp.
Karakaya, N., Karakaya, M.Ç., and Temel, A. (2013) Mineralogical and chemical properties and the origin of two types of analcime in SW Ankara, Turkey. Clays and Clay Minerals, 61, 231–257.
Karlsson, H.R. (2001) Isotope geochemistry of zeolites. Pp. 163–205 in: Natural Zeolites: Occurrence, Properties, Applications (D.L. Bish and D.W. Ming, editors). Reviews in Mineralogy and Geochemistry, 45, Mineralogical Society of America and Geochemical Society, Washington.
Karlsson, H.R. and Clayton, R.N. (1990) Oxygen and hydrogen isotope geochemistry of zeolites. Geochimica et Cosmochimia Acta, 54, 1369–1386.
Kitsopoulos, K.P. (1997) The genesis of a mordenite deposit by hydrothermal alteration of pyroclastics on Polyegos island, Greece. Clays and Clay Minerals, 45, 632–648.
Kurt, H., Asan, A., and Ruffet, G. (2008) The relationship between collision-related calcalkaline, and within-plate alkaline volcanism in the Karacadağ Area (Konya-Türkiye, Central Anatolia). Chemie der Erde, 68, 155–176.
Langella, A., Cappeletti, P., and de’Gennaro, M. (2001) Zeolites in closed hydrologic systems. Pp. 235–260 in: Natural Zeolites: Occurrence, Properties, Applications (D.L. Bish and D.W. Ming, editors). Reviews in Mineralogy and Geochemistry, 45, Mineralogical Society of America and Geochemical Society, Washington.
Lazaro, B.B., Abad, C.A., Fernandez-Nieto, C., and Gonzalez Lopez, J.M. (1994) Mineralogy and geochemistry of Miocene deposits at Alcubierre Sierra, central sector of the Ebro Basin, Spain. Clay Minerals, 29, 341–400.
Middlemost, E. A. K. (1985) Magmas and magmatic rocks. An Introduction to Igneous Petrology Longman, London.
Ming, D.W. and Dixon, J.B. (1987) Technique for the separation of clinoptilolite from soils. Clays and Clay Minerals, 35, 469–472.
Mumpton, F.A. (1999) La roca magica: Uses of natural zeolites in agriculture and industry. Proceedings of the National Academy of Sciences of the United States of America, 96, 3463–3470.
Nähr, T.H., Botz, R., Bohrmann, G., and Schmidt, M. (1998) Oxygen isotopic composition of low-temperature authigenic clinoptilolite. Earth and Planetary Science Letters, 160, 369–381.
Okay, A.I., Tansel, İ., and Tüysüz, O. (2001) Obduction, subduction and collision as reflected in the Upper Cretaceous—Lower Eocene sedimentary record of western Turkey. Geological Magazine, 138, 117–142.
Pasquar, G., Poli, S., Vezzoli, L., and Zanchi, A. (1988) Continental arc volcanism and tectonic setting in Central Anatolia, Turkey. Tectonophysics, 146, 217–230.
Passaglia, E. and Sheppard, R.A. (2001) Crystal chemistry of zeolites. Pp. 69–116 in: Natural Zeolites: Occurrence, Properties, Applications (D.L. Bish and D.W. Ming, editors). Reviews in Mineralogy and Geochemistry 45, Mineralogical Society of America and Geochemical Society, Washington, D.C.
Rollinson, H. (1993) Using Geochemical Data: Evaluation, Presentation, Interpretation. Longman Scientific and Technical, Harlow, Essex, UK.
Şahin, M.B. (2007) Orta Anadolu’da belirlenen önemli bir şabazit oluşumu ve mineralojik özellikleri. MTA Dergisi, 135, 31–44.
Saunders, A.D., Tarney, J., Marsh, N.G., and Wood, D.A. (1980) Ophiolites as ocean crust: a geochemical approach. Pp. 193–204 in: Ophiolites: Proceedings of the International Ophiolite Symposium (A. Panayiotou, editor). Ministry of Agriculture and Natural Resources, Cyprus, 1979. Geological Survey Department, Cyprus.
Savin, S., Tsirambides, A., Kassoli-Fournaranki, A., and Filippidis, A. (1993) Oxygen-isotope evidence for the alteration of the Eocene zeolite-bearing volcaniclastic sediments of Metaxades, Thrace, Greece. Zeolite’ 93, Idaho, pp. 180–181.
Sharp, Z.D. (1990) Laser-based microanalytical method for the in situ determination of oxygen isotope ratios of silicates and oxides. Geochimica et Cosmochimica Acta, 54, 1353–1357.
Sheppard, R.A. and Hay, R.L. (2001) Formation of zeolites in open hydrologic systems. Pp. 261–276 in: Natural Zeolites: Occurrence, Properties, Application (D.L. Bish and D.W. Ming, editors). Reviews in Mineralogy and Geochemistry, 45. Mineralogical Society of America and Geochemical Society, Washington, D.C.
Sheppard, S.M.F., Nielsen, R.L., and Taylor, H.P., Jr. (1969) Oxygen and hydrogen isotope ratios of clay minerals from porphyry copper deposits. Economic Geology, 64, 755–777.
Shimizu, H. and Masuda, A. (1977) Cerium in chert as an indication of marine environment of its formation. Nature, 266, 346–348.
Snellings, R., Haten van T., Machiels, L., Mertens, G., Vandenberghe, N., and Elsen, J. (2008) Mineralogy, geochemistry, and diagenesis of clinoptilolite tuffs (Miocene) in the central Simav graben, Western Turkey. Clays and Clay Minerals, 56, 622–632.
Surdam, R.C. (1977) Zeolites in closed hydrologic systems. Pp. 65–91 in: Mineralogy and Geology of Natural Zeolites (F.A. Mumpton, editor). Reviews in Mineralogy, 4. Mineralogical Society of America, Washington, D.C.
Surdam, R.C. and Parker, R.B. (1972) Authigenic aluminosilicate minerals in the tuffaceous rocks of the Green River Formation, Wyoming. Geological Society of America Bulletin, 83, 689–700.
Surdam, R.C. and Sheppard, R.A. (1978) Zeolites in saline, alkaline-lake deposits. Pp. 145–174 in: Natural Zeolites: Occurrence, Properties, Use (L.B. Sand and F.A. Mumpton, editors). Pergamon Press, Elmsford, New York.
Steinman, B.A. and Abbott, M.B. (2013) Isotopic and hydrologic responses of small, closed lakes to climate variability: Hydroclimate reconstructions from lake sediment oxygen isotope records and mass balance models. Geochimica et Cosmochimica Acta, 105, 342–359.
Temel, A. and Gündoğdu, M.N. (1996) Zeolite occurrences and the erionite-mesothelioma relationship in Cappadocia, central Anatolia. Mineralium Deposita, 31, 539–547.
Temel, A., Gündoğdu, M.N., and Gourgaud, A. (1998) Petrological and geochemical characteristics of Cenozoic high-K calc-alkaline volcanism in Konya, Central Anatolia, Turkey. Journal of Volcanology and Geothermal Research, 85, 327–354.
Tomita, K., Yamane, H., and Kawano, M. (1993) Synthesis of smectite from volcanic glass at low temperature. Clays and Clay Minerals, 41, 655–661.
Tsolis-Katagas, P. and Katagas, C. (1990) Zeolitic diagenesis of Oligocene pyroclastic rocks of the Metaxades area, Thrace, Greece. Mineralogical Magazine, 54, 95–103.
Tucker, M.E. (1988) Techniques in Sedimentology. Blackwells. Oxford. 394 pp.
Uğuz, F.M., Turhan, N., Bilgin, A.Z., Umut, M., Şen, A.M. ve Acarlar, M. (1999) Kulu (Konya)-Haymana (Ankara) ve Kırıkkale dolayının jeolojisi. MTA Rapor No: 10399, Ankara (unpublished report).
Wali, A.M., Dardir, A.A. and Elsheikh, R.M (2009) Mineralogy and mineral successions crystallization of the waste residual brines. 9th World Salt Symposium, Beijing.
Whitney, D.L. and Evans, B.W. (2010) Abbreviations for names of rock-forming minerals. American Mineralogist, 95, 185–187.
Winchester, J.A. and Floyd, P.A. (1977) Geochemical discrimination of different magma series and their differentiations products using immobile elements. Chemical Geology, 20, 325–340.
Yanev, Y., Boev, B., Innocenti, F., Manetti, P., Pecskay, Z., Tonarini, S., and, D’Orazio, M. (2006) Ultrapotassic to potassic Late Neogene volcanic rocks in Macedonia: Mineralogy, geochemistry, and age. Proceedings of the XVIIIth Congress of the Carpathian-Balkan Geological Association, Belgrade, pp. 666–669.
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Karakaya, M.Ç., Karakaya, N. & Yavuz, F. Geology and Conditions of Formation of the Zeolite-Bearing Deposits Southeast of Ankara (Central Turkey). Clays Clay Miner. 63, 85–109 (2015). https://doi.org/10.1346/CCMN.2015.0630202
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DOI: https://doi.org/10.1346/CCMN.2015.0630202