14: Geological Structures and Mountain Building

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Page ID: 29147

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Learning Objectives

Describe the types of stresses that affect rocks.
Explain how rocks respond to those stresses through brittle, elastic, or plastic deformation.
Explain how rocks become folded and know the terms used to describe fold characteristics.
Describe the conditions under which rocks fracture.
Describe the different types of faults (normal, reverse, thrust, strike-slip) and the stresses that create them.
Describe the different ways in which deformation of Earth’s lithosphere builds mountains.
Measure the strike and dip of a geological feature and plot the information on a map.

14.1: Stress and Strain
This page examines the effects of tectonic forces on rocks, focusing on normal and shear stress, and differentiating between elastic and plastic strain. It details factors like composition, temperature, and pressure that influence rock behavior, particularly in the brittle-ductile transition zone at depths of 10-30 km.
14.2: Folds
This page discusses folds in rocks, a type of ductile deformation resulting from stress, with key components such as limbs and hinge zones. Folds are classified as synclines or anticlines and can take various forms including symmetrical and asymmetrical. They shape landscapes by creating ridges and valleys through erosion, although not all folds create expected features. The size of folds can also vary widely.
14.3: Fractures, Joints, and Faults
This page explains the difference between fractures (no movement) and faults (movement present) in rocks. It discusses the formation of joints and faults under various stress regimes, including tension and compression, and outlines fault types such as dip-slip, strike-slip, and thrust faults. The significance of these geological structures in tectonic activity, including continental rifting and mountain-building, is emphasized through examples like horsts, grabens, and the McConnell Thrust.
14.4: Mountain Building
This page covers the processes of mountain building through various tectonic settings, focusing on igneous intrusions formed by rifting. It details the characteristics of different mountain types like volcanic island arcs and fault-block mountains, citing examples such as the East African Rift Zone and Nevada's Basin and Range Province. The text also describes intraplate mountain chains, such as the Hawaiian-Emperor seamount chain, resulting from hotspots melting the lithosphere.
14.5: Measuring Geological Structures
This page highlights the significance of documenting geological structures, focusing on bedding orientation to interpret geological history. It defines essential terms like strike and dip, emphasizing precise measurements with a geological compass and the need to specify dip direction. The page provides examples related to geological features such as faults and folds, illustrates their representation on maps, and includes practice problems for applying the concepts of strike and dip.
14.6: Chapter 14 Summary and Key Term Check
This page explores stress and strain in rocks, highlighting their causes from tectonic activities and weight. It discusses ductile responses, specifically folding (anticlines and synclines), and addresses the formation of joints and faults. Orogeny, the process of mountain building from plate collisions, is also covered alongside related igneous intrusions and faulting. The importance of measuring geological structures with strike and dip for understanding geological history is emphasized.

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