Metallogenic mechanism of the Galinge Polymetallic Iron Skarn Deposit, Qiman Tagh Mountains, Qinghai Province. (2019)
- Record Type:
- Book
- Title:
- Metallogenic mechanism of the Galinge Polymetallic Iron Skarn Deposit, Qiman Tagh Mountains, Qinghai Province. (2019)
- Main Title:
- Metallogenic mechanism of the Galinge Polymetallic Iron Skarn Deposit, Qiman Tagh Mountains, Qinghai Province
- Further Information:
- Note: Miao Yu.
- Authors:
- Yu, Miao
- Contents:
- Intro; Supervisor's Foreword; Preface; Parts of this thesis have been published in the following documents:; Contents; 1 The Qiman Tagh Orogen as a Window to the Crustal Evolution in Northern Qinghai-Tibet Plateau; 1.1 Lithostratigraphy; 1.2 Structural Framework of the Qiman Tagh Orogen; 1.3 Metamorphism; 1.4 Magmatism; 1.4.1 Proterozoic Magmatism; 1.4.2 Early Paleozoic Magmatism; 1.4.3 Late Paleozoic Magmatism; 1.4.4 Early Mesozoic Magmatism; 1.4.5 Ophiolites; 1.5 The Evolution History of the Qiman Tagh Mountains; 1.5.1 The North Qiman Tagh as an Active Continental Margin 1.5.2 The South Qiman Tagh as an Oceanic Island Arc1.5.3 Collision Between the South and North Qiman Tagh Terrane; 1.5.4 Renewal of Orogeny in the South Qiman Tagh Terrane; 1.5.5 Final Closure of the Paleo Tethyan Qiman Tagh Ocean; 1.6 Conclusion; References; 2 Skarn Zonation and Mineral Geochemistry of the Galinge Skarn Deposit; 2.1 Ore Deposit Geology; 2.1.1 Stage Division of Skarn Evolution; 2.1.2 Stratagraphy; 2.1.3 Intrusion; 2.2 Petrography of Skarns; 2.2.1 Magnesian Skarn; 2.2.2 Calcic Skarn; 2.2.3 Ore Minerals; 2.3 Analytical Methods; 2.4 Mineral Composition Results 2.4.1 Magnesian Skarn2.4.2 Calcic Skarns; 2.4.3 Manganesian-Calcic Skarns; 2.4.4 Magnetite Composition; 2.5 Skarn Zonation; 2.5.1 Mg-SK Zonation; 2.5.2 Ca-SK Zonation; 2.5.3 Mn-Ca-SK Zonation; References; 3 Thermodynamic Model for the Galinge Fe Skarn Deposit in Qinghai; 3.1 Thermodynamic Model for Magnesian Skarn; 3.2 ThermodynamicIntro; Supervisor's Foreword; Preface; Parts of this thesis have been published in the following documents:; Contents; 1 The Qiman Tagh Orogen as a Window to the Crustal Evolution in Northern Qinghai-Tibet Plateau; 1.1 Lithostratigraphy; 1.2 Structural Framework of the Qiman Tagh Orogen; 1.3 Metamorphism; 1.4 Magmatism; 1.4.1 Proterozoic Magmatism; 1.4.2 Early Paleozoic Magmatism; 1.4.3 Late Paleozoic Magmatism; 1.4.4 Early Mesozoic Magmatism; 1.4.5 Ophiolites; 1.5 The Evolution History of the Qiman Tagh Mountains; 1.5.1 The North Qiman Tagh as an Active Continental Margin 1.5.2 The South Qiman Tagh as an Oceanic Island Arc1.5.3 Collision Between the South and North Qiman Tagh Terrane; 1.5.4 Renewal of Orogeny in the South Qiman Tagh Terrane; 1.5.5 Final Closure of the Paleo Tethyan Qiman Tagh Ocean; 1.6 Conclusion; References; 2 Skarn Zonation and Mineral Geochemistry of the Galinge Skarn Deposit; 2.1 Ore Deposit Geology; 2.1.1 Stage Division of Skarn Evolution; 2.1.2 Stratagraphy; 2.1.3 Intrusion; 2.2 Petrography of Skarns; 2.2.1 Magnesian Skarn; 2.2.2 Calcic Skarn; 2.2.3 Ore Minerals; 2.3 Analytical Methods; 2.4 Mineral Composition Results 2.4.1 Magnesian Skarn2.4.2 Calcic Skarns; 2.4.3 Manganesian-Calcic Skarns; 2.4.4 Magnetite Composition; 2.5 Skarn Zonation; 2.5.1 Mg-SK Zonation; 2.5.2 Ca-SK Zonation; 2.5.3 Mn-Ca-SK Zonation; References; 3 Thermodynamic Model for the Galinge Fe Skarn Deposit in Qinghai; 3.1 Thermodynamic Model for Magnesian Skarn; 3.2 Thermodynamic Model for Calcic Skarn; 3.3 The Precipitation of Magnetite; 3.4 Conclusion; References; 4 Multistage Skarn-Related Tourmalines from the Galinge Deposit: A Significant Indicator for Varying Fluid Composition; 4.1 Petrography of Samples; 4.2 Analytical Methods 4.3 Chemical Composition of Tourmaline4.4 Controls on Compositional Variations in Tourmaline; 4.5 Implications for Skarn Deposit; References; 5 Multistage Amphiboles from the Galinge Skarn Deposit: Evidence of Igneous Rocks Replacement; 5.1 Petrography; 5.2 Analytical Method; 5.3 Mineral Composition; 5.4 Replacement of Mafic Igneous Rocks; 5.5 Incorporation of Cl; 5.6 Implications of Fluid Inclusions; 5.7 Concluding Remarks; References; 6 Formation and Breakdown of Ilvaite in the Large Galinge Skarn Fe Deposit, Western China: A Record of Multistage Retrograde Alteration 6.1 Petrography of the Ilvaite-Bearing Association6.2 Analytical Methods; 6.3 Chemical Composition of the Ilvaite-Bearing Association; 6.4 Thermodynamic Relations of Ilvaite-Bearing Associations; 6.5 Comparison with Other Ilvaite-Bearing Skarn Deposit Types; 6.6 Conclusion; References; 7 Fluid Evolution and Stable Isotope Characters; 7.1 Classification of Fluid Inclusions; 7.2 Fluid Inclusion Microthermometry; 7.3 Processes Contributing to the Skarn Mineralization; 7.4 Sulfur Isotope Studies; 7.5 Lead Isotope Studies; References … (more)
- Publisher Details:
- Singapore : Springer
- Publication Date:
- 2019
- Extent:
- 1 online resource (xiv, 248 pages), illustrations (some color)
- Subjects:
- 552/.4
Metallogeny -- China -- Qinghai Sheng
Skarn -- China -- Qinghai Sheng
Metallogeny
Skarn
Geochemistry
Economic Geology
Mineral Resources
China -- Qinghai Sheng
Electronic books
Electronic books - Languages:
- English
- ISBNs:
- 9789811079078
9811079072
9811079064
9789811079061
9789811079085
9811079080 - Related ISBNs:
- 9789811079061
- Notes:
- Note: Includes bibliographical references.
Note: Online resource; title from PDF title page (SpringerLink, viewed February 19, 2019). - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
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