1. 1 Geology and Earth Resources

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10. 10 CleanUp

11. 11 Outline Tectonic Processes Rocks and Minerals  Rock Cycle Economic Geology and Mineralogy Environmental Effects of Resource Extraction  Mining - Reclamation Conserving Geologic Resources Geologic Hazards

12. 12 A DYNAMIC PLANET A Layered Sphere  Core - Interior composed of dense, intensely hot metal. Generates magnetic field enveloping the earth.  Mantle - Hot, pliable layer surrounding the core. Less dense than core.  Crust - Cool, lightweight, brittle outermost layer. Floats on top of mantle.

13. 13 Earth’s Cross Section

14. 14 Tectonic Processes Upper layer of mantle contains convection currents that break overlaying crust into a mosaic of tectonic plates.  Slide slowly across earth’s surface. - Ocean basins form where continents crack and pull apart. - Magma forced up through cracks in oceanic crust form mid-oceanic ridges.

15. 15 Tectonic Plates

16. 16 Plate Tectonics © Brooks/Cole Publishing Company / ITP Earthquakes & volcanoes are distributed mostly in bands along the Earth's surface. These bands correspond to tectonic plate boundaries. Fig.14–3

17. 17 Plate Tectonics © Brooks/Cole Publishing Company / ITP Plate tectonic activity, known also as continental drift, is responsible for the current position of continents. Fig. 6–12

18. 18 Tectonic Processes Earthquakes are caused by grinding and jerking as plates slide past each other.  Mountain ranges pushed up at the margins of colliding plates. - When an oceanic plate collides with a continental landmass, the continental plate will ride up over the seafloor and the oceanic plate will subduct down into the mantle.  Deep ocean trenches mark subduction zones.

19. 19 Tectonic Plate Movement

20. 20 Pangea Geologists suggest that several times in earth’s history most, or all, of the continents gathered to form a single super-continent, Pangea, surrounded by a single global ocean.

21. 21 ROCKS AND MINERALS A mineral is a naturally occurring, inorganic, solid element or compound with a definite chemical composition and regular internal crystal structure. A rock is a solid, cohesive, aggregate of one or more minerals.  Each rock has a characteristic mixture of minerals, grain sizes, and ways in which the grains are held together.

22. 22 Rock Types Rock Cycle - Cycle of creation, destruction, and metamorphosis.  Three major rock classifications: - Igneous - Sedimentary - Metamorphic

23. 23 Rock Cycle

24. 24 Igneous Rocks Most common type of rock in earth’s crust.  Solidified from magma extruded onto the surface from volcanic vents. - Quick cooling of magma produces fine- grained rocks.  Basalt - Slow cooling of magma produces coarse-grained rocks.  Granite

25. 25 Weathering and Sedimentation Mechanical - Physical break-up of rocks into smaller particles without a change in chemical composition. Chemical - Selective removal or alteration of specific components that leads to weakening and disintegration of rock.  Oxidation Sedimentation - Deposition of loosened material.

26. 26 Sedimentary Rock Deposited materials that remain in place long enough, or are covered with enough material for compaction, may again become rock.  Formed from crystals that precipitate out of, or grow from, a solution. - Shale - Sandstone - Tuff

27. 27 Metamorphic Rock Pre-existing rocks modified by heat, pressure, and chemical agents.  Chemical reactions can alter both the composition and structure of rocks as they are metamorphosed. - Marble (from limestone) - Quartzite (from sandstone) - Slate (from mudstone and shale)

28. 28 ECONOMIC GEOLOGY AND MINERALOGY Metals  Metals consumed in greatest quantity by world industry (metric tons annually): - Iron (740 million) - Aluminum(40 million) - Manganese(22.4 million) - Copper and Chromium(8 million ea) - Nickel(0.7 million)

29. 29 Non-Metal Mineral Resources Gemstones and Precious Metals  Supports despots, criminal gangs, terrorism, inhumane labor conditions, and environmental destruction. Sand and Gravel  Brick and concrete construction, paving, sandblasting and glass production. Limestone  Concrete and building stone Evaporites  Gypsum and Potash Sulfur  Sulfuric Acid

30. 30 U.S. 1872 Mining Law © Brooks/Cole Publishing Company / ITP Under an 1872 U.S. mining law, any person or corporation can assume legal ownership of public land (other than wilderness or park) by filing mining claims & paying nominal cost for the land (often $6 to $12 per hectare). no provision for reclamation of damaged land; environmentalists favor reform of the law to include the following: -prohibit buying of public land, but allow leasing; -require environmental impact assessment before leasing; -set standards for preventing & controlling pollution & environmental degradation; -make mining companies legally & financially responsible for environmental cleanup & restoration.

31. 31 ENVIRONMENTAL EFFECTS OF RESOURCE EXTRACTION Mining  Placer Mining - Hydraulically washing out metals deposited in streambed gravel. - Destroys streambeds and fills water with suspended solids.  Strip-Mining or Open Pit Mining - Large scars on land surface. - Tailings  Toxic runoff

32. 32 Copper mine in Sudbury, Ontario

33. 33 Damage to the surrounding environment

34. 34 Aerial view of the Summitville mine in Alamosa, colorado

35. 35 Fumes from the Ducktown smelter kills the vegetation

36. 36 Sulfuric acid from smelter killed all the vegetation

37. 37 Mining Underground Mining  Extremely Dangerous - Gas - Inhaling Particulate Matter - Tunnel Collapse

38. 38 Restoration Surface Mining Control and Reclamation Act (1977) requires better restoration of strip- mined lands, especially if land classed as prime farmland.  Difficult and expensive. - Complete reclamation often costs more than $10,000 / hectare.  50% of U.S. coal is strip mined.

39. 39 Processing Metals are extracted from ores by heating or treatment with chemical solvents.  Smelting - Roasting ore to release metals. - Major source of air pollution.  Heap-Leach Extraction - Crushed ore piled in large heaps and sprayed with a dilute alkaline cyanide solution which percolates through the pile to dissolve the gold. - Effluent left behind in ponds.

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41. 41 CONSERVING GEOLOGIC RESOURCES Recycling  Aluminum must be extracted from bauxite by electrolysis. - Recycling waste aluminum consumes one-twentieth the energy of extraction from raw ore.  Nearly two-thirds of all aluminum beverage cans in U.S. are recycled.  Other metals commonly recycled: - Platinum, gold, copper, lead, iron, steel.

42. 42 Substituting New Materials For Old Reduce metal consumption by using new materials or new technologies.  Plastic pipes in place of metal pipes.  Fiber-optics in place of metal wires.  Metal alloys in place of traditional steel.

43. 43 GEOLOGIC HAZARDS Earthquakes - Sudden movements of the earth’s crust that occur along faults where one rock mass slides past another.  Gradual movement - creep. - When friction prevents creep, stress builds up until eventually released with a sudden jerk.  Frequently occur along subduction zones.  Tsunami - Seismic sea swells.

44. 44 Volcanoes Volcanoes and undersea magma vents are the sources of most of the earth’s crust.  Many of world’s fertile soils are weathered volcanic material. - Human / Environmental Dangers  Volcanic Ash  Mudslides  Sulfur Emissions

45. 45 Mass Wasting Materials are moved downslope from one place to another.  Many human activities such as forest clearing and building homes on unstable slopes increase both frequency and damage done by landslides.

46. 46 Summary Tectonic Processes Rocks and Minerals Economic Geology and Mineralogy  Strategic Resources Environmental Effects of Resource Extraction  Mining - Reclamation Conserving Geologic Resources Geologic Hazards

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