Structural Geology of Rocks and Regions

Preface

Part I: Introduction to Structural Geology

Chapter 1: The Nature of Structural Geology and Structures

Prelude: Moines Thrust What is Structural Geology? What are geologic structures? How do we understand geologic structures? Why this book? Let¿s go!

Chapter 2: Getting Started in Structural Analysis

Prelude: Taiwan Track Recognizing structures¿and Thinking Like a Structural Geologist Defining structural geometries Using Basic Strain Concepts Using Basic Stress Concepts Rheology, Geomechanics, and Rock Failure Brittle vs ductile regimes Regional tectonics and structural settings Putting Structural Analysis to Work

Part II: Brittle Deformation

Chapter 3: Fractures and Joints

Prelude: The Burren Entering the World of Fracturing Overview of Fractures and Fracture-Related Structures Field-based Fracture Analysis Properties of Joints in Outcrops Examining Whole Systems of Fractures

Chapter 4: Joints and the Mechanics of Opening-mode Fracturing

Prelude: Rock Strength Tests, and Teaching Road Map Stress-Strain Primer Creating Opening-mode Fractures in the Laboratory Microcracks and Tensile Failure Monitoring Microcracking and Fracturing Failure Criteria, i.e. Laws of Failure Fluid Pressure and the Development of Opening-mode Fractures Moving Forward to the Next Chapter

Chapter 5: Interpreting Regional Fracture Systems

Prelude: Cleats in Coalbeds, Western Pennsylvania Some Background Analysis of Primary Fracturing in Igneous Rocks Analysis of Stylolites and Associated Veins in Limestone Analysis of Jointin in Near-flat Lying Sedimentary Strata Analyzing od Jointing Associated with Large Individual Folds Analyzing of Joint Swarms and Fracture Corridors Analysis of Sheeting Joints, Fissures, and Craquelures

Chapter 6: Faults and Fault Zones

Prelude: Kuparuk River Field Recognizing Faults Individual Faults Fault Sets and Populations Fault Segments and Relays Fault Initiation and Growth Fault Zones and Fault Rocks Fault Displacements and Strain Practical Aspects of Faults

Chapter 7: The Mechanics of Faulting

Prelude: Reactivating Faults in the Lab The Fault Mechanics Mission Setting the Stage: Brittle Shear Failure The Mechanics of Shear Failure The Mechanics of Shear Reactivation The Mechanics of Thrust Faults Applications

Chapter 8: Interpreting Fault Systems

Prelude: Non-traditional Normal Faults at Chimney Rock The Significance of Systems of Faults Regional Fault Systems Reverse Fault Systems Normal Fault Systems Strike-slip Fault Systems Coupled Fault Systems Multi-phase Fault Systems Other Faults

Chapter 9: Folds

Prelude: The Sanctuary of Zeus Recognizing Folds Basic Fold Types and Forms Geometric Analysis of Folds Folds and Strain Practical Aspects of Folds

Chapter 10: The Mechanics and Kinematics of Folding and Fold-Fault Interactions

Prelude: Curvy Monoclines, Deep Faults, and Fracture Patterns Fold Kinematics and Mechanics Buckling Fault-related Folds and Forced Folding Fault Bend Folds Fault-propagation Folds Detachment Folds Listric Normal Faults and Hanging Wall Folds Folds (and Faults) Related to Salt and Shale¿and Magma Depositional Patterns Related to Faulting and Folding Structural Balance of Folds and Faults

Chapter 11: Interpreting Folds and Fault-Fold Systems

Prelude: Eastern Uinta Mountains Fault-fold Habitats and Systems Reverse Fault-fold Systems Normal Fault-fold Systems Strike-slip Fault-fold Systems Coupled Fault-fold Systems Multi-phase Fault Systems Salt Systems Other Fault-Fold Systems

Part III: Ductile Deformation

Chapter 12: Foliation, Lineation, and Shear Zones

Recognizing foliation and lineation Foliation Cleavage and ductile folds Lineation Geometric analysis of foliation and lineation Shear Zones Recognizing shear zones Types of shear zones Sense of shear Strain in shear zones Strain and fabric development

Chapter 13: The Formation of Foliation, Lineation, and Shear Zones

Metamorphic fabrics and strain and processes Crustal strength profiles Mechanics of foliation and lineation Strain analysis in shear zones

Chapter 14: Interpreting Structural Fabrics and Shear Zones

Analysis of metamorphic tectonites Analysis of shear zones Regional ¿high grade¿ systems

Part IV: Tectonics and Structural Systems

Chapter 15: Active Tectonics and Structural Geology

Prelude: The Denali Fault Active Tectonics and Active Kinematics Western United States The San Andreas Fault The Los Angeles Basin The Eastern California Shear Zone The Basin and Range The Wasatch Front Baja California and the Sea of Cortez Rift Alaska What Came Before

Chapter 16: Summary

What have we learned? Structures, systems, and tectonics Structural geology and other disciplines Structural geology and society Closing thoughts

Part V: Practical Methods for Structural Analysis

Chapter 17: Descriptive and Geometric Analysis

Objectives and methods Geologic mapping Mapping contact relationships Recognizing primary structures Measuring the orientations of structures Studying faults in the field Studying folds in the field Studying shear zones in the field Interpreting structures in the subsurface Geologic cross sections and validation Structure contour maps Orthographic projection Stereonets¿projecting and plotting lines and planes Stereonets¿angles and rotations Stereonets¿data sets and statistics

Chapter 18: Kinematic Analysis

Objectives and methods Mohr diagrams for strain Determining strain from structural systems

Chapter 19: Dynamic Analysis

Objectives and methods Relating faults to principal stress directions Relating joints to stress and mechanics Determining focal mechanisms for earthquakes