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Geology and Nonrenewable Minerals
Chapter 14
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14-1 What Are the Earth’s Major Geological Processes and Hazards?
Concept 14-1A Gigantic plates in the earth’s crust move very slowly atop the planet’s mantle, and wind and water move the matter from place to place across the earth’s surface.
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The Earth’s Major Tectonic Plates
Fig 14-4
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GEOLOGIC PROCESSES The earth is made up of a core, mantle, and crust and is constantly changing as a result of processes taking place on and below its surface. The earth’s interior consists of: Core: innermost zone with solid inner core and molten outer core that is extremely hot. Mantle: solid rock with a rigid outer part (asthenosphere) that is melted pliable rock. Crust: Outermost zone which underlies the continents.
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The Earth’s Crust Is Made Up of a Mosaic of Huge Rigid Plates: Tectonic Plates
Fig 14-3
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Major Features of the Earth’s Crust and Upper Mantle
Fig 14-2
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The Earth’s Major Tectonic Plates
The extremely slow movements of these plates cause them to grind into one another at convergent plate boundaries, move apart at divergent plate boundaries and slide past at transform plate boundaries.
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The San Andreas Fault is an example of a transform fault
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Active Figure: Geological forces
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Active Figure: Plate margins
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14-2 How Are the Earth’s Rocks Recycled?
Concept The three major types of rocks found in the earth’s crust—sedimentary, igneous, and metamorphic—are recycled very slowly by the process of erosion, melting, and metamorphism.
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Natural Capital: The Rock Cycle Is the Slowest of the Earth’s Cyclic Processes
Fig 14-13
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Weathering: Biological, Chemical, and Physical Processes
Fig 14-6
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14-3 What Are Mineral Resources, and what are their Environmental Effects?
Concept 14-3A Some naturally occurring materials in the earth’s crust can be extracted and made into useful products in processes that provide economic benefits and jobs. Concept 14-3B Extracting and using mineral resources can disturb the land, erode soils, produce large amounts of solid waste, and pollute the air, water, and soil.
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The Life Cycle of a Metal Resource
Fig 14-14
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Extracting, Processing, Using Nonrenewable Mineral and Energy Resources
Fig 14-15
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There Are Several Ways to Remove Mineral Deposits
Types of surface mining Open-pit mining Contour Strip mining Mountaintop removal
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Natural Capital Degradation: Open-Pit Mine in Western Australia
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Natural Capital Degradation: Contour Strip Mining Used in Hilly or Mountainous Region
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Natural Capital Degradation: Mountaintop Coal Mining in West Virginia, U.S.
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14-4 How Long Will Supplies of Nonrenewable Mineral Resources Last?
Concept 14-4A All nonrenewable mineral resources exist in finite amounts, and as we get closer to depleting any mineral resource, the environmental impacts of extracting it generally become more harmful. Concept 14-4B An increase in the price of a scarce mineral resource can lead to increased supplies and more efficient use of the mineral, but there are limits to this effect.
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General Classification of Nonrenewable Mineral Resources
The U.S. Geological Survey classifies mineral resources into four major categories: Identified: known location, quantity, and quality or existence known based on direct evidence and measurements. Undiscovered: potential supplies that are assumed to exist. Reserves: identified resources that can be extracted profitably. Other: undiscovered or identified resources not classified as reserves
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General Classification of Nonrenewable Mineral Resources
Examples are fossil fuels (coal, oil), metallic minerals (copper, iron), and nonmetallic minerals (sand, gravel).
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Supplies of Nonrenewable Mineral Resources Can Be Economically Depleted
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
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Natural Capital Depletion: Depletion Curves for a Nonrenewable Resource
Fig 14-23
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14-5 How Can We Use Mineral Resources More Sustainability?
Concept We can try to find substitutes for scarce resources, reduce resource waste, and recycle and reuse minerals.
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Solutions: Sustainable Use of Nonrenewable Minerals
Fig 14-24
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Solutions: An Industrial Ecosystem in Denmark Mimics Natural Food Web
Fig 14-25
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