faults, folds and mountain building · • structural geology is the study of rock deformation...
TRANSCRIPT
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Faults, folds and mountain building
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Mountain belts
• “Deformation” = all changes in size, shape, orientation, or position of a rock mass
• Structural geology is the study of rock deformation
• Orogens (Oro = Greek for mountain, genesis = Greek for formation)
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Mountain building
• “Deformation” = all changes in size, shape, orientation, or position of a rock mass
• Structural geology is the study of rock deformation
• Orogeny (Mountain building event)
• Driven by plate tectonics
• Causes uplift
• Causes deformation
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Group Question: Which side is uplift, which side is deformation?
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Rock deformation
• “Deformation” = all changes in size, shape, orientation, or position of a rock mass
• Structural geology is the study of rock deformation
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Deformation
– Deformed terrain (strained)• Tilted beds, metamorphic
alteration, folding and faulting
– Undeformed terrain (unstrained)• Horizontal beds, spherical grains,
no folds or faults
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Stress results in strain!
Stress vs Strain
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Causes of Deformation
• Three types of stress:
– Compressional – Squeezing
– Tensional – Pulling apart
– Shear – Sliding past
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Confining Pressure
• An object feels the same stress on all sides.
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• Squeezing (greater stress in one direction).
Stress: Compression
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• Pull-apart (greater stress in one direction).
Stress: Extension (or Tensional)
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• Blocks of rock sliding past one another.
Stress: Shear
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• Strain = An irreversible change in the shape and size of a rock body caused by stress
– Stretching – Pulling apart
– Shortening – Squeezing together
– Shear – Sliding past
Strain
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Group question:
• Which of these types of pressure/stress would cause crustal thickening?
a) Confining pressure
b) Compression
c) Extension
d) Shear stress
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• Rocks subjected to stresses greater than their own strength begin to deform by folding, flowing, or fracturing
• Rocks are elastic up to a point...
– Rocks strength is not surpassed
– No permanent changes
• If rock’s strength is surpassed it may:
– Flow (ductile deformation)
– Fracture (brittle deformation)
Deformation
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Deformation Types
• Two major deformation types: Brittle and ductile
– Brittle deformation – Rocks break by fracturing
• Brittle deformation occurs in the shallow crust
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Deformation Types
• Two major deformation types: Brittle and ductile
– Ductile deformation – Rocks deform by flow and folding
• Ductile deformation occurs in the deeper crust
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What controls brittle vs. ductile?
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• Rock strength (chemical composition)
– (strong = brittle)
• Temperature
– (cold = brittle)
• Confining pressure
• Rate of deformation (Time)
– (shallow = brittle)
• In general: Deeper = Ductile!
What controls brittle vs. ductile?
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4 (8?) Groups Question
What would cause more brittle behavior?A good way to remember this?
• Rock strength (chemical composition)
– (strong = brittle)
• Temperature
– (cold = brittle)
• Confining pressure
• Rate of deformation (Time)
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Components of deformation
Displacement, Rotation, Distortion
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Geologic Structures
• Geometric features created by deformation.
– Folds, faults, joints, foliation etc.
– Often preserve information about stress fields.
• 3-D structural orientation is described by strike and dip.
– Strike – Horizontal intersection with a tilted surface.
– Dip – Angle of surface down from the horizontal.
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Thinking back:
• Folds are a result of:
a) Ductile deformation
b) Brittle deformation
c) Neither
d) Both
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Joints
• Planar rock fractures without offset
• Result from tensional stresses
• Systematic joints occur in parallel sets
• Minerals can fill joints to form veins
• Joints control weathering of rock
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Joints
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Joints - Veins
• Joints filled with minerals
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Faults
• Faults are fractures in rocks along which appreciable displacement has taken place
• Sudden movements along faults are the cause of most earthquakes
• Classified by their relative movement…………
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Faults
• May different types of faults!
• We will go over them all soon
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Folds
• Hinge – Portion of maximum curvature on a fold.
• Limb – Less curved “sides” of a fold
• Axial plane – Imaginary surface defined by connecting hinges of successively nested folds.
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Where are the hinge lines, axial planes and limbs?
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Folds
• Most folds result from compressional stresses which shorten and thicken the crust
- Anticline – upfolds or arches rock layers
- Syncline – downfolds or troughs of rock layers
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Rock Deformation and Mountain Building
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Mountain Belts
• Occur in linear belts
• Constructed by tectonic plate interactions - orogenesis
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Mountain building (uplift)
• Construction of mountains requires substantial uplift
– Mt. Everest (8.85 km above sea level)
– Comprised of marine sediments (formed below sea level)
• Tall mountains are supported by a thickened crust
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Erosional Sculpting
• Mountains reflect a balance between uplift and erosion
• Mountains are steep and jagged due to erosion
• Rock characteristics control erosion
– Resistant layers form cliffs
– Easily eroded rocks form slopes
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Orogenic Collapse
• Could the Himalayas keep increasing in height forever?
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Orogenic Collapse
• There is an upper limit to mountain heights
– Erosion accelerates with height
– Weight of high mountains overwhelms rock strength
• Deep, hot rocks eventually flow out from beneath mountains
• The mountains then collapse downward like soft cheese
• Uplift, erosion, and collapse exhume deep crustal rocks
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Isostasy
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Isostasy
• What happens as mountains stop building and erosion starts to lower them?
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Isostasy
• You are a researcher in the Himalayas. You find rocks with mineralogies that place them in the greenschist facies.
• Using U-Pb radioactive dating the rock is about 10 Myrs.
• What is the maximum exhumation/uplift rate?
• What could this uplift rate tell us? a) 0.03 km/Myrs
b) 3 km/Myrsc) 30 km/Myrs