Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi

ASAN, Kürşad; Kurt, Hüseyin; KORKMAZ, Gülin GENÇOĞLU

Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi

Yürütücü

Gülin GENÇOĞLU KORKMAZ (KONYA TEKNİK ÜNİVERSİTESİ, MÜHENDİSLİK VE DOĞA BİLİMLERİ FAKÜLTESİ, JEOLOJİ MÜHENDİSLİĞİ BÖLÜMÜ)

Araştırmacı(lar)

Kürşad ASAN, (KONYA TEKNİK ÜNİVERSİTESİ, MÜHENDİSLİK VE DOĞA BİLİMLERİ FAKÜLTESİ, JEOLOJİ MÜHENDİSLİĞİ BÖLÜMÜ)

Hüseyin KURT (KONYA TEKNİK ÜNİVERSİTESİ, MÜHENDİSLİK VE DOĞA BİLİMLERİ FAKÜLTESİ, JEOLOJİ MÜHENDİSLİĞİ BÖLÜMÜ)

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Proje Grubu: ÇAYDAG Sayfa Sayısı: 142 Proje No: 118Y252 Proje Bitiş Tarihi: 01.09.2019 Metin Dili: Türkçe İndeks Tarihi: 22-12-2021

Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi

Öz:

Konya GD?sunda Karapınar-Emirgazi-Ereğli?ye kadar uzanan geniş bir alanda Neojen Kuvaterner yaşlı volkanik kayaçlar yüzeylemektedir. Çalışma alanındaki lav akıntısı/domlar ve bunların piroklastikleri ile temsil edilen, ortaç-asidik bileşime sahip Neojen yaşlı volkanik kayalar ?Karacadağ volkanitleri?, bununla birlikte cüruf konileri, lav akıntıları ve maar piroklastikleri olarak yüzeyleyen Kuvaterner yaşlı mafik-ortaç volkanitler ise ?Karapınar volkanitleri? olarak isimlendirilmektedir. Bu volkanitler Kapadokya Volkanik Provensinin güneybatı uzantısı olup bu çalışmada Karapınar-Karacadağ Volkanik Kompleksi (KKVK) adı altında toplanmışlardır. Bu çalışmada KKVK?nın arazi çalışmasına dayanan mineralojik (majör-iz)-petrografik, jeokimyasal (tüm kaya majör-iz element ve Sr-Nd-Pb izotop) ve jeokronolojik özellikleri incelenmiştir. Karacadağ volkanitleri kalk-alkalen karakterli olup hakim olarak andezit, nadiren bazalt, dasit ve trakitlerden oluşmaktadır. Karapınar volkanitleri ise geçişli (kalkalkalen-hafif alkalen) jeokimyasal karaktere sahip olup hakim olarak bazalt, daha az bazaltik andezit ve andezitlerden oluşmaktadır. Ar-Ar jeokronolojisi sonucu Karacadağ volkanitlerine ait bazaltların yaşı 5.65 ± 0.06 My, dasitlerin yaşı ise 5.45 ± 0.09 My dır. Literatürde yayınlanmış veriler Karapınar volkanitlerinin 2.5 My?dan daha genç olduğunu göstermektedir.İncelenen volkanitler N-MORB-normalize iz element diyagramlarında orojenik veya kıtasal kabuktan kirlenmiş magmalar için tipik olan LILE (Rb, Ba, Sr, K) zenginleşmesi, negatif Nb-Ta ve pozitif Pb anomalisi göstermektedir. Karacadağ bazaltları Nb/Ta oranları (~10.5) ile kabuk (12-13) bileşimine yakın Nb/Ta oranı içermektedir. Karapınar bazaltlarının Nb/Ta oranları (17- 19) ise kondritik değere (17.5) yakın, OIB (15-16)?den biraz fazla fakat kabuktan oldukça yüksektir. Bu durum Karacadağ bazaltlarının Karapınar bazaltlarına göre kabuk kontaminasyonunun fazlasıyla etkisinde kaldığını, zaman içerisinde kabuk etksinin azaldığını göstermektedir.KKVK ait volkanik kayaların düşük 143Nd/144Nd (0.512706?0.513084), yüksek 87Sr/86Sr (0.704921?0.705924) ve 206Pb/204Pb (18.88?18.92) içerikleri içerikleri kıtasal kabuk bileşenleri içeren manto kaynağının göstergesi olarak yorumlanmıştır. İz element ve izotopik verilerine dayanarak, Karacadağ volkanitlerine ait bazaltik örneklerin yitim zonu bileşenlerince metasomatizmaya uğratılmış litosferik manto kaynağından türediği düşünülmektedir. Karapınar bazaltlarının ise OIB-benzer özellikler sergilemesine rağmen litosferik manto kaynağa işaret etmesinin metasomatizma ve kabuk kontaminasyonuna uğramış olmasından kaynaklandığı düşünülmektedir.

Anahtar Kelime: orojenik oıb metasomatizma litosferik kontaminasyon alkalen

Konular: Mühendislik, Jeoloji

Erişim Türü: Erişime Açık

Abraham, A.-C., Francis, D., and Polvé, M., 2001, Recent alkaline basalts as probes of the lithospheric mantle roots of the Northern Canadian Cordillera: Chemical Geology, v. 175, no. 3, 361-386.
Akal, C., Candan, O., Koralay, O. E., Oberhänsli, R., Chen, F., and Prelević, D., 2011, Early Triassic potassic volcanism in the Afyon Zone of the Anatolides/Turkey: implications for the rifting of the Neo-Tethys: International Journal of Earth Sciences, v. 101, no. 1, p. 177-194.
Aldanmaz, E., 2002, Mantle source characteristics of alkali basalts and basanites in an extensional intracontinental plate setting, Western Anatolia, Turkey: Implications for multi-stage melting: International Geology Review, v. 44, no. 5, p. 440-457.
Aldanmaz, E., Pearce, J. A., Thirlwall, M. F., and Mitchell, J. G., 2000, Petrogenetic evolution of late Cenozoic, post-collision volcanism in western Anatolia, Turkey: Journal of Volcanology and Geothermal Research, v. 102, no. 1-2, p. 67-95.
Asan, K., 2007, Kulu (Konya)-Haymana (Ankara) Yöresi Volkanik Kayaçlarının Jeokimyası, Petrolojisi ve Petrojenezi Asan, K., and Ertürk, M. A., 2013, First Evidence of Lamprophyric Magmatism from the Konya Region, Turkey: a Genetic Link to High-K Volcanism: Acta Geologica Sinica - English Edition, v. 87, no. 6, p. 1617-1629.
Asan, K., and Kurt, H., 2011, Petrology and Geochemistry of Post-Collisional Early Miocene Volcanism in the Karacadaǧ Area (Central Anatolia, Turkey).
Aydin, F., Schmitt, A. K., Siebel, W., Sönmez, M., Ersoy, Y., Lermi, A., Dirik, K., and Duncan, R., 2014, Quaternary bimodal volcanism in the Niğde Volcanic Complex (Cappadocia, central Anatolia, Turkey): age, petrogenesis and geodynamic implications: Contributions to Mineralogy and Petrology, v. 168, no. 5, p. 1078.
Barnes, G. C., Berry, R., Barnes, M., and Ernst, W., 2017, Trace element zoning in hornblende: Tracking and modeling the crystallization of a calc-alkaline arc pluton, 2390-2405 p.:
Batum, I., 1978, Geology and petrography of Acıgöl and Göllüdag volcanics at southwest of Nevsehir central Anatolia, Turkey: Yerbilimleri, v. 4, p. 50-69.
Besang, C., Eckhardt, F., Harre, W., Kreuzer, H., and Müller, P., 1977, Radiometrische altersbestimmungen an neogenen eruptivgesteinen der Türkei: Geologisches Jahrbuch, v. 25, p. 3-36.
Best, M. G., 1982, Igneous and Metamorphic Petrology, 630 p.: Biryol, C. B., Beck, S. L., Zandt, G., and Özacar, A. A., 2011, Segmented African lithosphere beneath the Anatolian region inferred from teleseismic P-wave tomography: Geophysical Journal International, v. 184, no. 3, p. 1037-1057.
Bonin, B., 2004, Do coeval mafic and felsic magmas in post-collisional to within-plate regimes necessarily imply two contrasting, mantle and crustal, sources? A review: Lithos, v. 78, no. 1-2, p. 1-24.
Bottazzi, P., Tiepolo, M., Vannucci, R., Zanetti, A., Brumm, R., Foley, S. F., and Oberti, R., 1999, Distinct site preferences for heavy and light REE in amphibole and the prediction of Amph/LDREE: Contributions to Mineralogy and Petrology, v. 137, no. 1, p. 36-45.
Bussweiler, Y., Foley, S. F., Prelević, D., and Jacob, D. E., 2015, The olivine macrocryst problem: New insights from minor and trace element compositions of olivine from Lac de Gras kimberlites, Canada: Lithos, v. 220-223, p. 238-252.
Chauvel, C., Goldstein, S., and Hofmann, A., 1995, Hydration and dehydration of oceanic crust controls Pb evolution in the mantle: Chemical Geology, v. 126, no. 1, p. 65- 75.
Chauvel, C., Hofmann, A. W., and Vidal, P., 1992, HIMU-EM: the French Polynesian connection: Earth and Planetary Science Letters, v. 110, no. 1-4, p. 99-119.
Chazot, G., Lowry, D., Menzies, M., and Mattey, D., 1997, Oxygen isotopic composition of hydrous and anhydrous mantle peridotites.
Cigolini, C., Laiolo, M., and Bertolino, S., 2008, Probing Stromboli volcano from the mantle to paroxysmal eruptions: Geological Society, London, Special Publications, v. 304, no. 1, 33-70.
Cousens, B. L., and Bevier, M. L., 1995, Discerning asthenospheric, lithospheric, and crustal influences on the geochemistry of Quaternary basalts from the Iskut– Unuk rivers area, northwestern British Columbia: Canadian Journal of Earth Sciences, v. 32, no. 9, 1451-1461.
De Hoog, J. C. M., Gall, L., and Cornell, D. H., 2010, Trace-element geochemistry of mantle olivine and application to mantle petrogenesis and geothermobarometry: Chemical Geology, v. 270, no. 1, p. 196-215.
Deniz, K., 2016, Akçakent (Kırşehir) Foid İçerikli Magmatik Kayaların Zamansal ve Mekansal Konumu: Ankara Universitesi Fen Bilimleri Enstitüsü, 273.
Depaolo, D., and Ellen Daley, E., 2000, Neodymium isotopes in basalts of the southwest basin and range and lithospheric thinning during continental extension, 157-185.
Eiché, G., Francis, D., and Ludden, J., 1987, Primary alkaline magmas associated with the Quaternary Alligator Lake volcanic complex, Yukon Territory, Canada: Contributions to Mineralogy and Petrology, v. 95, no. 2, 191-201.
Elitok, Ö., Özgür, N., Drüppel, K., Dilek, Y., Platevoet, B., Guillou, H., Poisson, A., Scaillet, S., Satır, M., Siebel, W., Bardintzeff, J.-M., Deniel, C., and Yılmaz, K., 2010, Origin and geodynamic evolution of late Cenozoic potassium-rich volcanism in the Isparta area, southwestern Turkey, 454-504 p.
Ercan, T., 1987, Orta Anadolu'daki Senozoyik Volkanizmasi, 119-140 p.
Ercan, T., Fujitami, T., Matsuda, J., Tokel, S., and Notsu, K., 1990, HasandagıKaracadag (Orta Anadolu) dolaylarındaki Senozoyik yaslı volkanizmanın kökeni ve evrimi: Jeomorfoloji Dergisi, v. 18, p. 39-54.
Ercan, T., Tokel, S., Matsuda, J., Ui, T., Notsu, K., and Fujitani, T., 1992, Hasandagı– Karacadag (Orta Andolu) Kuvaterner volkanizmasına iliskin yeni jeokimyasal, izotopik ve radyometrik veriler. New geochemical, isotopic and radiometric data of Quaternary volcanism of Hasandagı-Karacadag (Central Anatolia): Geol Bull Turkey, v. 7, p. 8-21.
Eren, Y., 1993, Konya Kuzeybatısında Bozdağlar Masifinin Otokton ve Örtü Birimlerinin Stratigrafisi: Geological Bulletin of Turkey, v. 36, p. 7-23.
Eren, Y., 1996, Ilgın - Sarayönü (Konya) güneyinde Bozdağlar masifinin yapısal özellikleri: Geological Bulletin of Turkey, v. 39, p. 49-63.
Eren, Y., 2001, Polyphase Alpine deformation at the northern edge of the MenderesTaurus block, North Konya, Central Turkey: Journal of Asian Earth Sciences, v. 19, p. 737-749.
Eren, Y., Kurt, H., Rosselet, F., and Stampfli, G. M., 2004, Palaeozoic deformation and magmatism in the northern area of the Anatolide block (Konya), witness of the Palaeotethys active margin: Eclogae Geologicae Helvetiae, v. 97, no. 2, p. 293- 306.
Ersoy, E. Y., Helvacı, C., and Palmer, M. R., 2010, Mantle source characteristics and melting models for the early-middle Miocene mafic volcanism in Western Anatolia: Implications for enrichment processes of mantle lithosphere and origin of K-rich volcanism in post-collisional settings: Journal of Volcanology and Geothermal Research, v. 198, no. 1-2, p. 112-128.
Faure, G., 2001, Origin of igneous rocks : the isotopic evidence / Gunter Faure. Faure, G., and Mensing, T. M., 2005, Isotopes: Principles and Applications, Wiley.
Foley, S. F., Prelevic, D., Rehfeldt, T., and Jacob, D. E., 2013, Minor and trace elements in olivines as probes into early igneous and mantle melting processes: Earth and Planetary Science Letters, v. 363, p. 181-191.
Francalanci, L., Avanzinelli, R., Nardini, I., Tiepolo, M., Davidson, J., and Vannucci, R., 2012, Crystal recycling in the steady-state system of the active Stromboli volcano: A 2.5-ka story inferred from in situ Sr-isotope and trace element data, 109-131p
Garcia, M., and Jacobson, S. S., 1979, Crystal clots, amphibole fractionation and the evolution of calc-alkaline magmas, 319-327 p.: Gençalioglu-Kuşçu, G., 2011, Geochemical characterization of a Quaternary monogenetic volcano in Erciyes Volcanic Complex: Cora Maar (Central Anatolian Volcanic Province, Turkey): International Journal of Earth Sciences, v. 100, no. 8, p. 1967-1985.
Gençoğlu Korkmaz, G., Asan, K., Kurt, H., and Morgan, G., 2017, 40Ar/39Ar geochronology, elemental and Sr-Nd-Pb isotope geochemistry of the Neogene bimodal volcanism in the Yükselen area, NW Konya (Central Anatolia, Turkey): Journal of African Earth Sciences, v. 129, p. 427-444.
Ginibre, C., Kronz, A., and Wörner, G., 2007, Crystal Zoning as an Archive for Magma Evolution: Elements, v. 3, no. 4, p. 261-266.
Giuseppe, P., Agostini, S., Manetti, P., Savaşçın, M. Y., and Conticelli, S., 2018, Sublithospheric origin of Na-alkaline and calc-alkaline magmas in a post-collisional tectonic regime: Sr-Nd-Pb isotopes in recent monogenetic volcanism of Cappadocia, Central Turkey: Lithos, v. 316-317, p. 304-322.
Gómez-Ulla, A., Sigmarsson, O., and Gudfinnsson, G. H., 2017, Trace element systematics of olivine from historical eruptions of Lanzarote, Canary Islands: Constraints on mantle source and melting mode: Chemical Geology, v. 449, p. 99-111.
Green, T. H., 1995, Significance of Nb/Ta as an indicator of geochemical processes in the crust-mantle system: Chemical Geology, v. 120, no. 3, p. 347-359.
Gürsoy, H., Piper, J. D. A., Tatar, O., and Mesci, L., 1998a, Palaeomagnetic study of the Karaman and Karapinar volcanic complexes, central Turkey: neotectonic rotation in the south-central sector of the Anatolian Block: Tectonophysics, v. 299, no. 1, p. 191-211.
Gürsoy, H., Piper, J. D. A., Tatar, O., and Temiz, H., 1998b, A palaeomagnetic study of the Sivas Basin, central Turkey: Crustal deformation during lateral extrusion of the Anatolian Block: Tectonophysics, v. 271, no. 1, p. 89-105.
Herzberg, C., 2010, Identification of Source Lithology in the Hawaiian and Canary Islands: Implications for Origins, 113-146 p.: Hofmann, A. W., Jochum, K. P., Seufert, M., and White, W. M., 1986, Nb and Pb in oceanic basalts: new constraints on mantle evolution: Earth and Planetary Science Letters v. 79, no. 1-2, p. 33-45.
Hofmann, A. W., 2007, 2.03 - Sampling Mantle Heterogeneity through Oceanic Basalts: Isotopes and Trace Elements, in Holland, H. D., and Turekian, K. K., eds., Treatise on Geochemistry: Oxford, Pergamon, 1-44.
Irvine, T., and Baragar, W. R. A., 1971, A Guide to the Chemical Classification of the Common Volcanic Rocks, 523-548 p.: Jacobsen, S., and Wasserburg, G., 1980, A two-reservoir recycling model for mantlecrust evolution: Proceedings of the National Academy of Sciences, v. 77, no. 11, p. 6298-6302.
Kamber, B. S., and Collerson, K. D., 2000, Role of ‘hidden’deeply subducted slabs in mantle depletion: Chemical Geology, v. 166, no. 3-4, p. 241-254.
Keller, J., 1974, Quaternary Maar Volcanism near Karapinar in Central Anatolia.
Kent, A. J. R., 2014, Preferential eruption of andesitic magmas: Implications for volcanic magma fluxes at convergent margins: Geological Society, London, Special Publications, v. 385, no. 1, p. 257-280.
Kent, A. J. R., Darr, C., Koleszar, A. M., Salisbury, M. J., and Cooper, K. M., 2010, Preferential eruption of andesitic magmas through recharge filtering: Nature Geoscience, v. 3, p. 631.
Keskin, M., Pearce, J. A., Kempton, P. D., and Greenwood, P., 2006, Magma-crust interactions and magma plumbing in a postcollisional setting: geochemical evidence from the Erzurum-Kars volcanic plateau, eastern Turkey: Special Papers-Geological Society of America, v. 409, 475.
Keskin, M., Genç, Ş. C., and Tüysüz, O., 2008, Petrology and geochemistry of postcollisional Middle Eocene volcanic units in North-Central Turkey: Evidence for magma generation by slab breakoff following the closure of the Northern Neotethys Ocean: Lithos, v. 104, no. 1, p. 267-305.
Koç, A., Kaymakci, N., van Hinsbergen, D. J. J., Kuiper, K. F., and Vissers, R. L. M., 2012, Tectono-Sedimentary evolution and geochronology of the Middle Miocene Altınapa Basin, and implications for the Late Cenozoic uplift history of the Taurides, southern Turkey: Tectonophysics, v. 532-535, p. 134-155.
Kocaarslan, A., and Ersoy, E. Y., 2018, Petrologic evolution of Miocene-Pliocene mafic volcanism in the Kangal and Gürün basins (Sivas-Malatya), central east Anatolia: Evidence for Miocene anorogenic magmas contaminated by continental crust: Lithos, v. 310-311, p. 392-408.
Kulahci Dogan, G. D., 2015, Chronological, magmatological and geochemical study of post-collisional basaltic volcanism in Central Anatolia and its spatio-temporal evolution.
Kulahci Dogan, G. D., Temel, A., and Gourgaud, A., 2018, Mineralogical and petrological features of the Cemilköy ignimbrite, Cappadocia, Turkey: Geochemistry, v. 78, no. 1, p. 103-115.
Kurt, H., 1994, Petrography and Geochemistry of Kadınhanı (Konya) area, Central Turkey: PhD, Glasgow University (Unpublished), UK.
Kurt, H., 1996a, Evolution of Kadınhanı (Konya) dacite rocks: Petrographical and geochemical evidences for crystal fractionation and possible magma mixing: Geosound, v. 28, p. 23-34.
Kurt, H., 1996b, Geochemical characteristics of the metaigneous rocks near Kadınhanı (Konya), Turkey: Geosound, v. 28, p. 1-22.
Kurt, H., 1997, Geochemistry of metasedimentary rocks of the Kadınhanı (Konya) area, Turkey: Geosound, v. 31, p. 1-21.
Kurt, H., and Arslan, M., 1999, Geochemistry and petrogenesis of Kadınhanı (Konya) Krich metatrachyandesite: The evolution of Devonian (?) volcanism, 57-69 p.: Kurt, H., Asan, K., and Ruffet, G., 2008, The relationship between collision-related calcalkaline, and within-plate alkaline volcanism in the Karacadağ Area (KonyaTürkiye, Central Anatolia): Chemie der Erde - Geochemistry, v. 68, no. 2, p. 155- 176.
Kurt, H., Ozkan, A. M., and Kocak, K., 2003, Geology, petrography and geochemistry of the subduction related volcanic rocks, west of Konya, Central Anatolia, 39-51 p.: Kurt, S., Akgül, B., and Kurt, H., 2005, Sağlık - Erenkaya (Konya Batısı) Yöresi Volkanik Kayaçlarının Petrografik ve Jeokimyasal Özellikleri*: Fırat. Üniversitesi. Fen ve Mühendislik Bilimleri Dergisi,v. 17, p. 190-204.
Le Bas, M. J., Le Maitre, R. W., Streckeisen, A., and Zanettin, B. A., 1986, A Chemical Classification of Volcanic Rocks Based on the Total Alkali-Silica Diagram J. Petrol, v. 127, p. 745.
Leake, E. B., Woolley, A., Arps, E. S. C., Birch, W., Gilbert, M. C., Grice, D. J., Hawthorne, F., Kato, A., Kisch, H., Vladimir, K., Linthout, K., Laird, J., Mandarino, A. J., Maresch, W., Nickel, H. E., Rock, M. S. N., Schumacher, J., Smith, C. D., Stephenson, C. N. N., and Guo, Y., 1997, Nomenclature of amphiboles; Report of the Subcommittee on Amphiboles of the International Mineralogical Association, Commission on New Minerals and Mineral Names, 1019-1037 p.: Liew, T., and Hofmann, A., 1988, Precambrian crustal components, plutonic associations, plate environment of the Hercynian Fold Belt of central Europe: indications from a Nd and Sr isotopic study: Contributions to Mineralogy and Petrology, v. 98, no. 2, p. 129-138.
McDonough, W., and Sun, S. S., 1995, The composition of the Earth, 1050-1056 p.: McNab, F., Ball, P. W., Hoggard, M. J., and White, N. J., 2017, Neogene Uplift and Magmatism of Anatolia: Insights From Drainage Analysis and Basaltic Geochemistry: Geochemistry, Geophysics, Geosystems.
Medlin, C. C., Jowitt, S. M., Cas, R. A. F., Smithies, R. H., Kirkland, C. L., Maas, R. A., Raveggi, M., Howard, H. M., and Wingate, M. T. D., 2015, Petrogenesis of the Atype, Mesoproterozoic Intra-caldera Rheomorphic Kathleen Ignimbrite and Comagmatic Rowland Suite Intrusions, West Musgrave Province, Central Australia: Products of Extreme Fractional Crystallization in a Failed Rift Setting: Journal of Petrology, v. 56, no. 3, p. 493-525.
Morimoto, N., Fabries, J., Ferguson, A. K., Ginzburg, I. V., Ross, M., Seifert, F. A., Zussman, J., Aoki, K., and Gottardi, G., 1988, Nomenclature of pyroxenes: American Mineralogist, v. 73, no. 9-10, p. 1123-1133.
Myers, J. D., Marsh, B. D., Frost, C. D., and Linton, J. A., 2002, Petrologic constraints on the spatial distribution of crustal magma chambers, Atka Volcanic Center, central Aleutian arc: Contributions to Mineralogy and Petrology, v. 143, no. 5, p. 567-586.
Nakagawa, M., Wada, K., and Wood, C. P., 2002, Mixed Magmas, Mush Chambers and Eruption Triggers: Evidence from Zoned Clinopyroxene Phenocrysts in Andesitic Scoria from the 1995 Eruptions of Ruapehu Volcano, New Zealand: Journal of Petrology, v. 43, no. 12, p. 2279-2303.
Nakamura, N., 1974, Determination of REE, Ba, Fe, Mg, Na and K in carbonaceous and ordinary chondrites: Geochimica et Cosmochimica Acta, v. 38, no. 5, p. 757-775.
Notsu, K., Fujitani, T., Ui, T., Matsuda, J., and Ercan, T., 1995, Geochemical Features of Collision-Related Volcanic-Rocks in Central and Eastern Anatolia, Turkey: Journal of Volcanology and Geothermal Research, v. 64, no. 3-4, p. 171-191.
Olanca, K., 1999, Quaternary volcanism of Karapınar-Konya Region: Geochemical evolution: Bulletin of Earth Sciences Application and Research Center of Hacettepe University, v. 21, p. 115-124.
Özcan, A., Göncüoğlu, M. C., Turhan, N., Şentürk, K., Uysal, Ş., and Işık, A., 1990, Konya-Kadınhanı-Ilgın dolayının temel jeolojisi: MTA Rapor, no. 9535, p. 139.
Özcan, A., Göncüoglu, M. C., Turhan, N., Uysal, S., Isik, A., and Senturk, K., 1988, Late Paleozoic evolution of the Kütahya-Bolkardağı Belt, 111-122 p.:
Ozdemir, Y., and Gulec, N., 2013, Geological and Geochemical Evolution of the Quaternary Suphan Stratovolcano, Eastern Anatolia, Turkey: Evidence for the Lithosphere-Asthenosphere Interaction in Post-Collisional Volcanism: Journal of Petrology, v. 55, no. 1, p. 37-62.
Özkan, A. M., 2000, Akpınar-Tatköy-Ulumuhsine-Sarayköy (Konya) Dolayındaki Gölsel Stromatolitlerin Fasiyes Özellikleri: Geosound, v. 36, no. 1, p. 29-52.
Özkan, A. M., Söğüt, A. R. , 1999, Dilekçi (Konya Batısı) Çevresindeki Neojen Çökellerinin Stratigrafisi, Pamukkale University Engineering College Journal Of Engineering Sciences, v. 5.
Pearce, J., 1982, Trace Element Characteristics of Lavas from Destructive Plate Boundaries, p. 525-548.
Pearce, J., 1983, Role of the sub-continental lithosphere in magma genesis at active continental margin, 230-249 p.:
Pearce, J. A., and Parkinson, I. J., 1993, Trace element models for mantle melting: application to volcanic arc petrogenesis: Geological Society, London, Special Publications, v. 76, no. 1, p. 373-403.
Pearce, J., 1996, A user's guide to basalt discrimination diagrams. Pecerillo, A., 2005, Plio-Quaternary Volcanism in Italy: Petrology, Geochemistry, Geodynamics. , p. 370.
Pfänder, J. A., Jung, S., Münker, C., Stracke, A., and Mezger, K., 2012, A possible high Nb/Ta reservoir in the continental lithospheric mantle and consequences on the global Nb budget – Evidence from continental basalts from Central Germany: Geochimica et Cosmochimica Acta, v. 77, p. 232-251.
Piper, J., M. Moore, J., Tatar, O., Gürsoy, H., and G. Park, R., 1996, Palaeomagnetic study of crustal deformation across an intracontinental transform: The North Anatolian Fault Zone in Northern Turkey, 299-310 p.:
Putirka, K. D., 2008, Thermometers and Barometers for Volcanic Systems: Reviews in Mineralogy and Geochemistry, v. 69, no. 1, p. 61-120.
Putirka, K. D., Perfit, M., Ryerson, F. J., and Jackson, M. G., 2007, Ambient and excess mantle temperatures, olivine thermometry, and active vs. passive upwelling: Chemical Geology, v. 241, no. 3-4, p. 177-206.
Rabayrol, F., Hart, C. J. R., and Thorkelson, D. J., 2019, Temporal, spatial and geochemical evolution of late Cenozoic post-subduction magmatism in central and eastern Anatolia, Turkey: Lithos, v. 336-337, p. 67-96.
Reid, M. R., Schleiffarth, W. K., Cosca, M. A., Delph, J. R., Blichert-Toft, J., and Cooper, K. M., 2017, Shallow melting of OOSB-like mantle under hot continental lithosphere, Central Anatolia: Geochemistry, Geophysics, Geosystems, v. 18, no. 5, p. 1866-1888.
Renjith, M. L., 2014, Micro-textures in plagioclase from 1994–1995 eruption, Barren Island Volcano: Evidence of dynamic magma plumbing system in the Andaman subduction zone: Geoscience Frontiers, v. 5, no. 1, p. 113-126.
Ridolfi, F., Renzulli, A., and Puerini, M., 2010, Stability and chemical equilibrium of amphibole in calc-alkaline magmas: an overview, new thermobarometric formulations and application to subduction-related volcanoes: Contributions to Mineralogy and Petrology, v. 160, no. 1, p. 45-66.
Robertson, A. H. F., and Ustaömer, T., 2009, Formation of the Late Palaeozoic Konya Complex and comparable units in southern Turkey by subduction–accretion processes: Implications for the tectonic development of Tethys in the Eastern Mediterranean region: Tectonophysics, v. 473, no. 1-2, p. 113-148.
Rudnick, R., and Gao, S., 2003, Composition of the Continental Crust. Treatise Geochem 3:1-64, 1-64 p.:
Sakyi, P., Tanaka, R., Kobayashi, K., and Nakamura, E., 2012, Inherited Pb isotopic records in olivine antecryst-hosted melt inclusions from Hawaiian lavas, 169–195 Schleiffarth, W., Darin, M., Umhoefer, P., and R. Reid, M., 2018, Dynamics of episodic Late Cretaceous–Cenozoic magmatism across Central to Eastern Anatolia: New insights from an extensive geochronology compilation.
Sheldrick, T., Barry, T., Hinsbergen, D., and Kempton, P., 2018, Constraining lithospheric removal and asthenospheric input to melts in Central Asia: A geochemical study of Triassic to Cretaceous magmatic rocks in the Gobi Altai (Mongolia), 297-315 p.:
Søager, N., Portnyagin, M., Hoernle, K., Martin Holm, P., Folkmar, H., and GarbeSchönberg, D., 2015, Olivine Major and Trace Element Compositions in Southern
Payenia Basalts, Argentina: Evidence for Pyroxenite-Peridotite Melt Mixing in a Back-arc Setting, 1495-1518 p.:
Sobolev, A., Hofmann, A., Kuzmin, D., Yaxley, G., Arndt, N., Chung, S.-L., Danyushevsky, L., Elliott, T., Frey, F., Garcia, M., A. Gurenko, A., Kamenetsky, V., Kerr, A., Krivolutskaya, N. A. K. N., V. Matvienkov, V., Nikogosian, I., Rocholl, A., Sigurdsson, I., M. Sushchevskaya, N., and Teklay, M., 2007, The Amount of Recycled Crust in Sources of Mantle-Derived Melts, 412-417 p.:
Streck, M. J., 2008, Mineral Textures and Zoning as Evidence for Open System Processes: Reviews in Mineralogy and Geochemistry, v. 69, no. 1, p. 595-622.
Sun, S. s., and McDonough, W. F., 1989, Chemical and isotopic systematics of oceanic basalts: implications for mantle composition and processes: Geological Society, London, Special Publications, v. 42, no. 1, p. 313-345.
Sür, Ö., 1972, Türkiyenin, özellikle iç Anadolunun genç volkanik alanlarının jeomorfolojisi.
Tatar, O., Piper, J. D. A., Park, R. G., and Gürsoy, H., 1995, Palaeomagnetic study of block rotations in the Niksar overlap region of the North Anatolian Fault Zone, central Turkey: Tectonophysics, v. 244, no. 4, p. 251-266.
Temel, A., Gundogdu, M.N., 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 v. 85, p. 327- 354.
Thompson, R., and Morrison, M., 1988, Asthenospheric and lower-lithospheric mantle contributions to continental extensional magmatism: an example from the British Tertiary Province: Chemical Geology, v. 68, no. 1-2, 1-15.
Toprak, V., 1998, Vent distribution and its relation to regional tectonics, Cappadocian Volcanics, Turkey: Journal of Volcanology and Geothermal Research, v. 85, no. 1, p. 55-67.
Ubide, T., Galé, C., Larrea, P., Arranz, E., and Lago, M., 2014a, Antecrysts and their effect on rock compositions: The Cretaceous lamprophyre suite in the Catalonian Coastal Ranges (NE Spain): Lithos, v. 206-207, p. 214-233.
Ubide, T., Galé, C., Larrea, P., Arranz, E., Lago, M., and Tierz, P., 2014b, The Relevance of Crystal Transfer to Magma Mixing: a Case Study in Composite Dykes from the Central Pyrenees: Journal of Petrology, v. 55, no. 8, p. 1535-1559.
Ulu, Ü., 2009a, Geological Maps of Turkey Karaman-M30 Sheet: General Directorate of Mineral Research and Exploration, Ankara (in Turkish).
Ulu, Ü., 2009b, MTA Genel Müdürlüğü, 1: 100 000 Ölçekli Türkiye Jeoloji Haritaları Serisi, Karaman-M32 Paftası, No: 127: Ankara, Turkey: MTA Jeoloji Etütleri Dairesi (in Turkish).
Uslular, G., and Gençalioğlu-Kuşcu, G., 2019a, Geochemical Characteristics of Anatolian Basalts: Comment on “Neogene Uplift and Magmatism of Anatolia: Insights From Drainage Analysis and Basaltic Geochemistry” by McNab Et Al: Geochemistry, Geophysics, Geosystems, v. 20, no. 1, p. 530-541.
Uslular, G., and Gençalioğlu-Kuşcu, G., 2019b, Mantle source heterogeneity in monogenetic basaltic systems: A case study of Eğrikuyu monogenetic field (Central Anatolia, Turkey).
Uslular, G., Gençalioğlu-Kuşcu, G., and Arcasoy, A., 2015, Size-distribution of scoria cones within the Eğrikuyu Monogenetic Field (Central Anatolia, Turkey): Journal of Volcanology and Geothermal Research, v. 301, p. 56-65.
Winter, J. D., 2001, An introduction to igneous and metamorphic petrology. Prentice Hall, Upper Saddle River.
Wood, B. J., and Blundy, J. D., 1997, A predictive model for rare earth element partitioning between clinopyroxene and anhydrous silicate melt: Contributions to Mineralogy and Petrology, v. 129, no. 2, p. 166-181.
Wörner, G., Moorbath, S., and Harmon, R. S., 1992, Andean Cenozoic volcanic centers reflect basement isotopic domains: Geology, v. 20, no. 12, 1103-1106.
Yang, Z.-F., Li, J., Liang, W., and Luo, Z.-H., 2016, On the chemical markers of pyroxenite contributions in continental basalts in Eastern China: Implications for source lithology and the origin of basalts, 18-31 p.:
Yang, Z.-F., and Zhou, J.-H., 2013, Can we identify source lithology of basalt?: Scientific Reports, v. 3, p. 1856.
Zartman, R. E., 1974, Lead isotopic provinces in the Cordillera of the western United States and their geologic significance: Economic Geology, v. 69, no. 6, 792-805.
Zimmer, M., Plank, T., Hauri, E., Yogodzinski, G., Stelling, P., Larsen, J., Singer, B., Jicha, B., Mandeville, C., and J. Nye, C., 2010, The Role of Water in Generating the Calc-alkaline Trend: New Volatile Data for Aleutian Magmas and a New Tholeiitic Index, 2411-2444 p.:
Zindler, A., and Hart, S. R., 1986, Chemical Geodynamics: Annual Review of Earth and Planetary Sciences, v. 14, p. 493-571.
Zou, H., Zindler, A., Xu, X., and Qi, Q., 2000, Major, trace element, and Nd, Sr and Pb isotope studies of Cenozoic basalts in SE China: mantle sources, regional variations, and tectonic significance: Chemical Geology, v. 171, no. 1, 33-47.

APA	KORKMAZ G, ASAN K, Kurt H (2019). Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi. , 1 - 142.
Chicago	KORKMAZ Gülin GENÇOĞLU,ASAN Kürşad,Kurt Hüseyin Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi. (2019): 1 - 142.
MLA	KORKMAZ Gülin GENÇOĞLU,ASAN Kürşad,Kurt Hüseyin Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi. , 2019, ss.1 - 142.
AMA	KORKMAZ G,ASAN K,Kurt H Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi. . 2019; 1 - 142.
Vancouver	KORKMAZ G,ASAN K,Kurt H Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi. . 2019; 1 - 142.
IEEE	KORKMAZ G,ASAN K,Kurt H "Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi." , ss.1 - 142, 2019.
ISNAD	KORKMAZ, Gülin GENÇOĞLU vd. "Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi". (2019), 1-142.

APA	KORKMAZ G, ASAN K, Kurt H (2019). Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi. , 1 - 142.
Chicago	KORKMAZ Gülin GENÇOĞLU,ASAN Kürşad,Kurt Hüseyin Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi. (2019): 1 - 142.
MLA	KORKMAZ Gülin GENÇOĞLU,ASAN Kürşad,Kurt Hüseyin Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi. , 2019, ss.1 - 142.
AMA	KORKMAZ G,ASAN K,Kurt H Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi. . 2019; 1 - 142.
Vancouver	KORKMAZ G,ASAN K,Kurt H Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi. . 2019; 1 - 142.
IEEE	KORKMAZ G,ASAN K,Kurt H "Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi." , ss.1 - 142, 2019.
ISNAD	KORKMAZ, Gülin GENÇOĞLU vd. "Emirgazi (Konya) Volkanitlerinin U-Pb Zirkon Jeokronolojisi ve Jeokimyasal-İzotopikVeriler ile Yaşam Sürecinin ve Orta Anadolu Volkanizmasındaki KonumununBelirlenmesi". (2019), 1-142.