1. Geology and Nonrenewable Mineral Resources
Chapter 14
Geology and Nonrenewable Mineral Resources

2. 14-1 What Are the Earth’s Major Geological Processes and Hazards?

3. The Earth Is a Dynamic Planet
Geology?
Study of the dynamic processes taking place on earth’s surface and in its interior
Three major concentric zones of the earth
Core
Mantle
Including the asthenosphere
Crust
Continental crust
Oceanic crust: 71% of crust
The Earth Is a Dynamic Planet

4. Major Features of the Earth’s Crust and Upper Mantle
Figure 14.2: The earth’s crust and upper mantle have certain major features. The lithosphere, composed of the crust and outermost mantle, is rigid and brittle. The asthenosphere, a zone in the mantle, can be deformed by heat and pressure.
Fig. 14-2, p. 348

5. The Earth Beneath Your Feet Is Moving
Convection cells, or currents move large volumes and heat in loops within the mantle
Lithosphere: earth’s crust and the outermost layer of mantle
Scientists believe that the flow of heat/material broke up the lithosphere into large sections called Tectonic Plates
Three types of boundaries between plates
Divergent boundaries
Magma
Oceanic ridge
Convergent boundaries
Subduction zone
Trench
Transform boundaries: San Andreas fault
The Earth Beneath Your Feet Is Moving

6. The Earth’s Crust Is Made Up of a Mosaic of Huge Rigid Plates
Figure 14.3: The earth’s crust is made up of a mosaic of huge rigid plates, called tectonic plates, which move very slowly across the asthenosphere in response to forces in the mantle. See an animation based on this figure at CengageNOW.
Fig. 14-3, p. 348

7. The Earth’s Major Tectonic Plates
Figure 14.4: This map shows the earth’s major tectonic plates. See an animation based on this figure at CengageNOW. Question: Which plate are you riding on?
Fig. 14-4, p. 349

8. The San Andreas Fault as It Crosses Part of the Carrizo Plain in California, U.S.
Figure 14.5: This is the San Andreas Fault as it crosses part of the Carrizo plain between San Francisco and Los Angeles, California (USA). This fault, which runs almost the full length of California, is responsible for earthquakes of various magnitudes. Question: Is there a transform fault near where you live?
Fig. 14-5, p. 350

9. Some Parts of the Earth’s Surface Build Up and Some Wear Down
Internal geologic processes
Generally build up the earth’s surface
Push up continental and oceanic crusts
Form mountains and volcanoes
External geologic processes
Generally break down the earth’s surface (Weathering)
Physical, chemical, and biological
Erosion
Wind
Flowing water
Human activities
Glaciers
Some Parts of the Earth’s Surface Build Up and Some Wear Down

10. Volcanoes And Earthquakes Reshape the Earth’s Surface
Volcanic activities release large amounts of molten rock which solidify into new land forms
Earthquake activity moves huge masses of land around
Both are responsible for mountain formation
Volcanoes And Earthquakes Reshape the Earth’s Surface

11. Earthquake Risk in the United States
Figure 16, Supplement 8

12. World Earthquake Risk
Figure 17, Supplement 8

13. Earthquakes on the Ocean Floor Can Cause Waves Called Tsunamis
Tsunami, tidal wave
Travels several hundred miles per hour
Detection of tsunamis
Buoys in open ocean
December 2004: Indian Ocean tsunami
Magnitude 9.15 and 31-meter waves at shore
Coral reefs and mangrove forests help absorb the force of the wave which reduces the death toll on land
Earthquakes on the Ocean Floor Can Cause Waves Called Tsunamis

14. Indonesian Sunami of 2004: Map of Formation & Images of Coastal Change
Figure 14.8: This diagram illustrates how a tsunami forms. The map shows the area affected by a large tsunami in December 2004.
Fig. 14-8, p. 352

15. 14-2 How Are the Earth’s Rocks Recycled?

16. Minerals
Element or inorganic compound in earth’s crust
Usually a crystalline solid
Regular and repeating arrangement of atoms
Rock
Combination of one or more minerals

17. There Are Three Major Types of Rocks
1. Sedimentary
Made of sediments of dead plant/animal remains and particles of weathered/eroded rock
Sandstone
Shale
Limestone
Lignite and bituminous coal
There Are Three Major Types of Rocks

18. There Are Three Major Types of Rocks
2. Igneous
Forms below or at earth’s surface from magma
Granite
Lava rocks
3. Metamorphic
Pre-existing rock subjected to high pressures, high temperatures, and/or chemically active fluids
Anthracitic coal
Slate
Marble
There Are Three Major Types of Rocks

19. 14-3 What Are Mineral Resources, and What Are the Environmental Effects of Using Them?

20. We Use a Variety of Nonrenewable Mineral Resources
Can be extracted from earth’s crust and processed into raw materials and products at an affordable cost
Metallic minerals
Nonmetallic minerals
Ore
Rock that contains profitable concentrations of a mineral
High-grade ore
Low-grade ore
We Use a Variety of Nonrenewable Mineral Resources

21. We Use a Variety of Nonrenewable Mineral Resources
Metallic mineral resources
Aluminum
Iron for steel
Copper
Nonmetallic mineral resources
Sand, gravel, limestone
Reserves: estimated supply of a mineral resource
We Use a Variety of Nonrenewable Mineral Resources

22. The Life Cycle of a Metal Resource
Figure 14.11: Each metal resource that we use has a life cycle. Each step in this process uses large amounts of energy and water, and produces some pollution and waste.
Fig , p. 355

23. Extracting, Processing, Using Nonrenewable Mineral and Energy Resources
Figure 14.12: The extraction, processing, and use of any nonrenewable mineral or energy resource all contribute to a number of harmful environmental effects (Concept 14-3). Further, providing the energy required to carry out each step causes additional pollution and environmental degradation. Questions: What are three mineral resources that you used today? Which of these harmful environmental effects might have resulted from obtaining and using these resources?
Fig , p. 356

24. There Are Several Ways to Remove Mineral Deposits
Surface mining – removing shallow deposits (90 % of non-fuel mineral resources and 60 % of the coal)
Types:
Open-pit mining
Strip mining
Contour Strip Mining
Mountaintop Removal
Subsurface mining
Deep deposits removed through shafts, tunnels & chambers blasted in the ground
There Are Several Ways to Remove Mineral Deposits

25. 14-4 How Long Will Supplies of Nonrenewable Mineral Resources Last?

26. Mineral Resources Are Distributed Unevenly
Most of the nonrenewable mineral resources used worldwide are supplied by
United States
Canada
Russia
South Africa
Australia
Sharp rise in per capita use in the U.S. especially of
Strategic metal resources
Manganese (Mn)
Cobalt (Co)
Chromium (Cr)
Platinum (Pt)
Mineral Resources Are Distributed Unevenly

27. Future supply depends on:
Actual or potential supply of the mineral
Rate at which it is used
When it becomes economically depleted:
Recycle or reuse existing supplies
Waste less
Use less
Find a substitute
Do without
Depletion time: time to use a certain portion of reserves
Supplies of Nonrenewable Mineral Resources Can Be Economically Depleted

28. 14-5 How Can We Use Mineral Resources More Sustainably?