Title: CEE 437 Lecture 2 Earth Materials I Earth Structure and Minerals
1CEE 437 Lecture 2Earth Materials IEarth
Structure and Minerals
2Outline
- Global tectonic setting
- Rock cycle
- Rock forming minerals
- Paper 1
3Announcements
- Paper and Quiz Schedule
- Quiz 1 10-11
- Paper 1 10-18
- Field Trips
- Oct 23
- Nov 20
- Office and Hours
- 132 G More
- Before class (300) or by appointment
4Global Structure
- Based mainly on seismic information and meteorite
compositions - Crust 25-75 km depending varying under
continents and oceans
5Velocity Variation with Depth
6Global Structure
7Development of Plate Tectonics
- Evidence from ocean floor magnetism and ages
- Evidence from seismicity
- Evidence from cross-continent correlations of
rocks
8Global Seismicity
9Benioff Zone
10Seafloor Spreading Sediment Ages
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12Sea-floor Spreading
13Evolution of Spreading Sea Floor Atlantic Analog
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15Convergent Margins
- Ocean to Continent
- Continent to Continent
16Convergent Margin - Continental
17 Subduction Zone Island Arc
18Evolution of Continents North American Craton
19North American Accretion
20Rock Cycle
Crystallization at depth or extrusion at surface
Magma
Melting
Igneous Rocks
Burial, metamorphism, recrystallization
Metamorphic Rocks
Weathering, Erosion
Sediments
Burial, metamorphism, recrystallization
Sedimentary Rocks
Lithification
21Mineral Differentiation
- Plate tectonics and Igneous Processes
- selective melting, selective recrystallization
- differentiation by density
- Weathering and Erosion
- Selective weathering
- Concentration of quartz (pure Si02)
- Conversion of alumino-silicates to clays
- Concentration of soluble residues in seawater
- Deposition
- Courser materials near sediment source
- Finer materials far from sediment source
- Redeposition of salts and solutes by evaporative
(Na,KCl CaSO4) or biological processes (CaCO3,
)
22Differentiation of Crustal Composition
Weathering differentiating towards higher Silica
Carbonate concentrated by organic processes
Preferential melting of high-silica materials
Original basaltic composition of crust
Concentration of C, Ca, Na, K in sea and air
23Bowen Reaction Series
- How to get many different rocks from one melt
composition? - Differentiation by selective crystallization and
removal from system
24Bowens Reaction Series
25Crustal Composition
- Main Elemental Groups
- Silica
- Aluminum
- Ferro-Magnesian
- Ca, Na, K
26Elemental Fates
- Silicon tends to concentrate in crust quartz is
very long lived - Aluminum transforms from feldspars to clays
- Mica transform to clays
- Fe-Mg-Ca-Na-K concentrate in some clays and
micas, concentrate in oceans in biosphere
27Differentiation in Crystallization Versus
Differentiation in Weathering
Slow Weathering
Quartz
Low Temperature, High Silica, Low Fe Mg
Muscovite
K-Feldspars
Biotite
Amphibole
Ca,Mg Feldspars
High Temperature, Low Silica, Hi Fe Mg
Pyroxene
Olivine
Fast Weathering
28Sedimentary Differentiation
- Sorting by Deposition Medium
- Sorting by Energy
29Mineral Definition
- Naturally occurring material with unique
combination of chemical composition and
crystalline structure - Natural non-minerals glasses, coal, amorphous
silica - Pseudomorphs diamondgraphite
30Graphite, C
Galena, PbS
31Crystalline Structure of Calcite
32Crystalline Symmetry Groups
33Isomorphic Crystal Forms, Cubic System
34Physical Properties
- Density (Gravity)
- Electrical Conductivity (Resisitivity)
- Thermal Expansion
- Strength
- Elasticity (Mechanical properties,
- Seismic/Acoustic Velocity
- Rheology (Plasticity,Viscosity)
35Properties and Mineral Symmetry
36Tensor Properties of Crystals
Cubic Group
Lower Symmetry Groups
General Form for Heat Flow (for example)
37Discussion How to Rock Properties Relate to
Mineral Structure
- How will anisotropy vary with crystal symmetry
class? - Rock Salt versus Quartz?
- How will aggregates of minerals (with same
mineral behave? - Cubic versus non cubic
- Rock fabric
- Material property contrasts
38Rock Forming Minerals
- Composition of Crust
- Dominantly O, Si, Fe, Mg, Ca, Na, K
- Near surface importance of bio-processes
- Silicates from inorganic processes
- Carbonates mainly from shell-forming organisms
39Crustal Composition
- Main Elemental Groups
- Silica
- Aluminum
- Ferro-Magnesian
- Ca, Na, K
40Major Silicate Groups
- Silicon Tetrahedron
- separate tetrahedra olivine
- single chains pyroxene
- double chains amphibole
- sheet silicates micas and clays
- framework silicates feldspars (with Al
substitution), quartz as pure silica
41Silica Tetrahedron
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43Forms of Silicates
44Deformation Mechanisms
45Effects on Physical Properties
- Anisotropy
- Properties differ by direction
- Heterogeneity
- Properties vary by location
- Mineral properties may have strong anisotropy
when crystals are aligned - Heterogeneity may have strong mechanical effects
when different minerals have different
deformation properties
46Minerals versus Rocks
- Minerals Elements
- Anisotropy from crystal structure
- Elastic Properties
- Thermal Properties
- Optical Properties
- Deformation
- Shear transformations
- Dislocations
- Rock Elements
- Intragranular
- Anisotropy from fabric
- Crystal anisotropy if preferred orientation
- Anisotropy from bedding, foliation, flow
structures - Intergranular
- Cements
- Microcracks
- Heterogeneity
- Mineral composition
- Other segregration processes
47Clay Minerals
- Extremely Important Mineral Group
- Seals
- Stability
- Pore pressure
- Chemical interaction
- Swelling
- Slaking
- Confusion as both Size and Mineral
Classification
48Clay Sources
- Weathering
- Hydrothermal Alteration
- Deposition
- Clay Transformations
- Feldspar ? Illite
- Ferro-Magnesian ? Chlorite
- Volcanics (alkaline conditions) ? Smectite
- Volcanics (acidic conditions) ? Kaolinite
- Bentonite plastic, highly swelling
49Clay Units
From West, Geology Applied to Engineering,
Prentice Hall, 1995)
50Two and Three-Layer Clay Structure
From West, Geology Applied to Engineering,
Prentice Hall, 1995)
51Mixed Layer Clays
From West, Geology Applied to Engineering,
Prentice Hall, 1995)
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53Topics
- Mineral Definition
- Rock Forming Minerals
- Physical Proprieties of Minerals
- Mineral Identification
- Mineral Lab
54Clay Viewed from Electron Microscope
55Mineral Identification
- Density
- Hardness
- Color, luster (metallic, non-metalic,
semi-metallic) - Crystalline habit
- Cleavage
- Optical microscopy
- Mineral chemistry, x-ray diffraction
56Hardness Scale
57X-Ray Diffraction
Braggs Law
58Weathering Fates
- Feldspars to clays (clays, shales)
- Quartz endures (siltstones, sandstones)
- Calcium recirculated into carbonate minerals by
organic processes (limestones) - Consequence
- Over time, evolution of less dense more silicic
continental crust
59Engineering Implications
- Style of geology and geo-engineering problems
varies with plate tectonic setting - Faulting, and structural complexity
- Maturity of materials varies with plate tectonics
setting - Higher degree of more stable materials from
sorting by weathering - Geohazards vary with plate tectonic setting
60Paper and Paper Topics
- Paper I Topics
- Columbia River Basalts Origin, Structure,
Hydrologic and Engineering Properties - Geology and Engineering Geology of the Snoqualmie
Pass Quadrangle - Clay Minerals Origin, Crystal Structure,
Engineering Properties - 6 Pages, 1.5 space, plus figures, include
references.
61Undergrad Presentations
- 1. Geologic History of Columbia Plateau
- 2. Geologic History of Olympic Peninsula
- 3. Coal Mines of Newcastle, Washington
- 4. Geological Issue Effecting Construction I-5
through Seattle - 5. The Seattle Fault
- 6. Foundations on Peat
- 7. Rock Slope Stability Problems in I-90
- 8. Fracture Image Logging Technologies
- 9. Tunneling for Sound Transit
- 10. Engineering Properties of Organic Soils in
the Puget Sound Area - 11. Engineering Properties of Glacial Soils in
the Puget Sound Area 12. Solute Transport in
Fractured Rock 13. Economic Minerals of
Washington State 14. Quarry Mines of Puget Sound - 15. Failure of Malpassat Dam
- 16. Rock Tunnel Failures in the Alps
- 17. Seattle Watershed Geology
62Grad Requirements
- Add Goodman Engineer as Artist (unless discuss
with us otherwise)
63Paper and Paper Topics
- Paper I Topics
- Columbia River Basalts Origin, Structure,
Hydrologic and Engineering Properties - Geology and Engineering Geology of the Snoqualmie
Pass Quadrangle - Clay Minerals Origin, Crystal Structure,
Engineering Properties - 6 Pages, 1.5 space, plus figures, include
references.
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