Chapter 1 Introduction
1.1 Uranium resources in the world
1.2 Classification of uranium deposits
References
Chapter 2 Intrusive-type uranium deposits
2.1 Introduction
2.2 Uranium deposits related to magmatic differentiation
2.2.1 Geological setting
2.2.2 The host rocks
2.. Alteration
2.2.4 Mineralization
. Uranium deposits related to partial melting
..1 Uranium geochemical behavior in germination
..2 Geological characteristics of pegmatite-type uranium deposits
2.4 Example: the Rssing deposit in Namibia
2.4.1 Regional geology
2.4.2 Local geology
2.4.3 Metamorphism
2.4.4 Structure
2.4.5 Pegmatitic granite
2.4.6 Uranium Mineralization
2.4.7 Ore genesis
2.5 Example: the Hongshiquan deposit in China
2.5.1 (Meta)sediments
2.5.2 Magmatic rocks
2.5.3 Structures
2.5.4 Pegmatoidal alaskite
2.5.5 Mineralization
References
Chapter 3 Granite-type uranium deposits
3.1 Introduction
3.2.1 Geological background
3.2.2 Temporal and spatial characteristics of uraniferous granites
3.. Geochemical characteristics of uraniferous granites
3.2.4 Abundances in uraniferous granites
3.2.5 Mineralization styles of granite-type uranium deposits
3.2.6 Structural control over uranium mineralization
3.2.7 Ore coitions and ore vein evolution characteristics
3.2.8 Genetic model of granite-type uranium deposits
3.3 Example: Uranium deposits in the Guidong granite complex
3.3.1 Characteristics of intrusions
3.3.2 Structural characteristics
3.3.3 Mineralization
3.3.4 The No. 337 deposit
3.4 Example: Uranium deposits in mid-European Variscan U province
3.4.1 Characteristics of intrusions
3.4.2 Mineralization features
3.4.3 Limousin deposit
References
Chapter 4 Polymetallic iron oxide breccia complex deposits
4.1 Introduction
4.2 Example: Olympic Dam deposit (Australia)
4.2.1 Geological setting
4.2.2 Local geology
4.. Ore geology
4.2.4 Genetic model
References
Chapter 5 Volcanic-related uranium deposit
5.1 Introduction
5.2 Geological conditions of volcanic-related uranium deposits
5.2.1 Lithologic and lithofacies conditions of uranium-producing volcanic rocks
5.2.2 Structural controls on volcanic-related uranium deposits
5.. Types of volcanic basins related to uranium mineralization
5.3 Characteristics of volcanic-related uranium deposits
5.4 Examples: the Xiangshan volcanic-related ore field in China
5.4.1 Introduction
5.4.2 Geological setting
5.4.3 Mineralization
5.4.4 Ore genesis
5.5 Examples: the Strel’tsovka ore field in Russia
5.5.1 Introduction
5.5.2 Geologic setting
5.5.3 Mineralization
5.5.4 Ore genesis50References
Chapter 6 Metasomatite-type uranium deposits
6.1 Uranium deposits related to Na-metasomatism
6.1.1 Introduction
6.1.2 Na-metasomatite uranium deposits of the Kirovograd district (Ukraine)
6.2 Uranium deposits related to K-metasomatism
6.2.1 Geological setting
6.2.2 Local geology
6.. Ore Geology
6.2.4 Genetic Model
6.3 Example: the Mary Kathleen U-REE skarn deposits
6.3.1 Geological setting
6.3.2 Local geology
6.3.3 Ore geology
6.3.4 Genetic model
References
Chapter 7 Metamorphite-type uranium deposits
7.1 Overview
7.2 Uranium geochemistry in metamorphism
7.2.1 Geochemical characteristics of uranium in regional metamorphism
7.2.2 Geochemical factors affecting the activation and transfer of uraniumduring regional and contact metamorphism
7.. Uranium geochemistry in ultrametamorphism
7.3 Geological conditions and deposit characteristics of migmatization typeuranium deposits
7.4 Example: the Schwartzwalder deposit
7.4.1 Introduction
7.4.2 Local geology
7.4.3 Structural geology
7.4.4 Alteration
7.4.5 Mineralization
7.4.6 Metallogenetic aspects76References
Chapter 8 Unconformity-related uranium deposits
8.1 Introduction
8.2 Geological conditions and mineralization characteristics of unconformityrelateduranium deposits
8.2.1 Geological setting
8.2.2 Ore-bearing layer and metallogenic age
8.. Lithologic conditions
8.2.4 Structural conditions
8.2.5 Regional unconformity and paleoregoliths conditions
8.2.6 Mineralization
8.3 Example: McArthur River uranium deposit (Saskatchewan, Canada)
8.3.1 Introduction
8.3.2 Geological setting
8.3.3 Genesis83References
Chapter 9 Sandstone-type uranium deposits
9.1 Introduction
9.2 Classification of sandstone-type uranium deposits
9.2.1 Roll-front type uranium deposits
9.2.2 Basal-type uranium deposits
9.. Tabular-type uranium deposits
9.3 Geological characteristics of sandstone-type uranium deposits
9.3.1 Tectonic settings
9.3.2 Hydrogeological conditions of sedimentary basins
9.3.3 Structural conditions
9.3.4 Sources of uranium
9.4 Mineralization characteristics
9.4.1 Shape, scale and occurrence of orebody
9.4.2 Mineral coition
9.4.3 The timing of mineralization
9.5 Genesis of the sandstone-type deposits
9.6 Example: Uranium deposits in the Ordos Basin, China
9.6.1 Introduction
9.6.2 Regional geology
9.6.3 Uranium mineralization in the Ordos Basin
9.6.4 Ore genesis
References
Chapter 10 Paleo quartz-pebble conglomerate uranium deposits
10.1 Overview
10.2 Types of quartz-pebble conglomerate uranium deposits
10.3 Characteristics of quartz-pebble conglomerate uranium deposits
10.4 Example: the Witwatersrand uranium deposit
References
Chapter 11 Surfieial (Calcrete) uranium deposits
11.1 Introduction
11.2 Characteristics of the calcrete-hosted uranium deposit
11.2.1 Climatic conditions
11.2.2 Host rock
11.. The uranium source
11.2.4 The mineralization
11.3 Example: the Yeelirrie calcrete-hosted deposit in Australia
11.3.1 Introduction
11.3.2 Geology
11.3.3 Mineralization
11.3.4 Genesis
References
Chapter 12 Other types of uranium deposits
12.1 Introduction
12.2 Collapse breccia pipe uranium deposits
1. Lignite and coal uranium deposits
12.4 Carbonate uranium deposits
12.5 Phosphate uranium deposits
12.6 Black shale uranium deposits
12.7 Example: the Baimadong carbonate-hosted uranium deposit
12.7.1 Introduction
12.7.2 Local geology
12.7.3 The genesis of the Baimadong uranium deposit
References
本书在国际原子能机构发布的铀矿床分类的基础上,吸收国内外铀矿的研究进展,结合典型矿床实例,系统介绍各类型铀矿床的地质特征和成因。在编写的同时,本教材根据使用对象为高年级生和的特点,内容求精,并兼顾基础知识和研究进展,使学生在学习专业知识的同时,掌握与铀矿床有关的英文专业词汇和表达方式。
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