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Table of contents
1 INTRODUCTION
1.1. PURPOSE AND SCOPE
1.2. STUDIED AREAS
1.3. PREVIOUS STDUDIES IN CAPPADOCIA
1.4. LABORATORY STUDIES AND ANALYTICAL METHODS
1.4.1. Mineraology and Petrography
1.4.2. Geochemical Analyses
1.4.3. K-Ar Dating Method
2 GENERAL GEOLOGY
2.1. GENERAL SETTING OF THE STUDIED AREAS IN CAPPADOCIA
2.2. OVERVIEW ON POST-COLLISIONAL MAGMATISM
2.3. THE BASEMENT ROCKS OF CAPPADOCIA
2.4. BRIEFLY OVERVIEW OF THE MAJOR ELEMENT ANALYSIS AND THE CLASSIFICATION OF THE ERCİYES STRATOVOLCANO AND SOUTHWESTERN CAPPADOCIA SAMPLES
2.5. THE ERCİYES STRATOVOLCANO
2.6. THE SOUTHWESTERN CAPPADOCIA VOLCANISM
2.6.1. Hasandağ Basaltic Volcanism
2.6.2. The Obruk-Zengen Dispersed Volcanism
2.6.3. The Karapınar Dispersed Volcanism
2.7. CONCLUSION
3 MINERALOGY AND PETROGRPHY
3.1. THE BASALTS S.L. OF ERCİYES STROTOVOLCANO
3.2. THE BASALTS S.L. OF SOUTHWESTERN CAPPADOCIA
3.2.1. The Basalts s.l. of Hasandağ Stratovolcano
3.2.2. The Basalts s.l. of the Obruk-Zengen Dispersed Volcanism
3.2.3. Basalts s.l. of the Karapınar Dispersed Volcanism
3.3. CONCLUSION
4 MINERAL CHEMISTRY
4.1. MINERAL CHEMISTRY OF THE BASALTS S.L. OF THE ERCİYES STROTOVOLCANO
4.2. MINERAL CHEMISTRY OF THE BASALTS S.L OF THE SOUTHWESTERN CAPPADOCIA VOLCANISM
4.2.1. The Hasandağ Stratovolcano
4.2.2. The Obruk-Zengen Dispersed Volcanism
4.2.3. The Karapınar Dispersed Volcanism
4.3. CRYSTAL-LIQUID EQUILIBRIUM
4.3.1. Erciyes Stratovolcano
4.3.1.1. Olivine-Liquid Equilibrium
4.3.1.2. Clinopyroxene-Liquid Equilibrium
4.3.1.3. Feldispar-Liquid Equilibrium
4.3.2. Southwestern Cappadocia Volcanism
4.3.2.1. Olivine-Liquid Equilibrium
4.3.2.2. Clinopyroxene-Liquid Equilibrium
4.3.2.3. Feldspar-Liquid Equilibrium
4.4. GEOTHERMOMETER AND GEOBAROMETER CALCULATION
4.4.1. Erciyes Stratovolcano
4.4.1.1. Olivine-Liquid Geothermometer
4.4.1.2. Clinopyroxene-Liquid Geothermometer
4.4.1.3. Clinopyroxene-Orthopyroxene Geothermometer
4.4.1.4. Plagioclase-Liquid Geothermometer
4.4.2. The Soutwestern Cappadocia
4.4.2.1. Olivine-Liquid Geothermometer
4.4.2.2. Clinopyroxene-Liquid Geothermometer
4.4.2.3. Plagioclase-Liquid Geothermometer
4.4.3. Conclusion
5 GEOCHEMISTRY
5.1. MAJOR, TRACE AND RARE EARTH ELEMENT (REE) ANALYSIS
5.1.1. Erciyes Strotovolcano
5.1.2. Southwestern Cappadocia Volcanism
5.2. ISOTOPE GEOCHEMISTRY
5.2.1. Sr-Nd-Pb-O Isotope Geochemistry
5.2.1.1. Erciyes Stratovolcano
5.2.1.2. Southwestern Cappadocia Volcanism
5.3. CONCLUSION
6 DISCUSSION and CONCLUSION
6.1. ERCİYES STRATOVOLCANO
6.1.1. Partial Melting
6.1.2. Fractional Crystallization
6.1.3. Crustal Contamination and AFC (Assimilation Fractional Crystallization)
6.1.3.1. Potential Contaminants and AFC modeling
6.1.4. Mixing Sources
6.2. SOUTHWESTERN CAPPADOCİA VOLCANISM
6.2.1. Partial Melting
6.2.2. Fractional Crystallization
6.2.3. Crustal Contamination-AFC
6.2.3.1. Potential Contaminants and AFC modeling
6.2.4. Mixing Souces
6.3. TECTONICS
6.4. POSSIBLE MAGMA SOURCES
6.5. COMPARISON OF ES, HS, OZ AND K
6.6. TEMPORAL AND SPATIAL EVOLUTION OF MAGMA
