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THE EARTH’S LIFE SUPPORT SYSTEMS

THE EARTH’S LIFE SUPPORT SYSTEMS. The biosphere consists of several physical layers that contain: Air Water Soil Minerals Life. Figure 3-6. Biosphere. Atmosphere Membrane of air around the planet. Stratosphere

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THE EARTH’S LIFE SUPPORT SYSTEMS

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  1. THE EARTH’S LIFE SUPPORT SYSTEMS • The biosphere consists of several physical layers that contain: • Air • Water • Soil • Minerals • Life Figure 3-6

  2. Biosphere • Atmosphere • Membrane of air around the planet. • Stratosphere • Lower portion contains ozone to filter out most of the sun’s harmful UV radiation. • Hydrosphere • All the earth’s water: liquid, ice, water vapor • Lithosphere • The earth’s crust and upper mantle.

  3. 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, under which is the asthenosphere that is melted pliable rock. Crust: Outermost zone which underlies the continents.

  4. Earth • orbit: 149,600,000 km (1.00 AU) from Sun • diameter: 12,756.3 km • mass: 5.972e24 kg • Earth’s layers (depths in km) • 0- 40 Crust • 40- 2890 Mantle • 2890-5150 Outer core • 5150-6378 Inner core

  5. Earth • Earth’s mass (measured in 10^24 kg) • atmosphere = 0.0000051 • oceans = 0.0014 • crust = 0.026 • mantle = 4.043 • outer core = 1.835 • inner core = 0.09675

  6. Earth’s Interior • Core is made up mostly of iron/nickel • Temperatures in core reach 7500 K • The crust is primarily quartz. • Taken as a whole, the Earth's chemical composition (by mass) is: • 34.6% Iron 2.4% Nickel • 29.5% Oxygen 1.9% Sulfur • 15.2% Silicon 0.05% Titanium • 12.7% Magnesium

  7. GEOLOGIC PROCESSES Major features of the earth’s crust and upper mantle. Figure 15-2

  8. Folded mountain belt Volcanoes Abyssal plain Abyssal floor Oceanic ridge Abyssal floor Abyssal hills Trench Craton Continental slope Abyssal plain Oceanic crust (lithosphere) Continental shelf Continental rise Mantle (lithosphere) Continental crust (lithosphere) Mantle (lithosphere) Mantle (asthenosphere) Fig. 15-2, p. 336

  9. Spreading center Collision between two continents Ocean trench Oceanic tectonic plate Oceanic tectonic plate Plate movement Plate movement Tectonic plate Oceanic crust Oceanic crust Subduction zone Continental crust Continental crust Material cools as it reaches the outer mantle Cold dense material falls back through mantle Hot material rising through the mantle Mantle convection cell Mantle Two plates move towards each other. One is subducted back into the mantle on a falling convection current. Hot outer core Inner core Fig. 15-3, p. 337

  10. INTERNAL GEOLOGIC PROCESSES Huge volumes of heated and molten rack moving around the earth’s interior form massive solid plates that move extremely slowly across the earth’s surface. Tectonic plates: huge rigid plates that are moved with convection cells or currents by floating on magma or molten rock.

  11. The Earth’s Major Tectonic Plates Figure 15-4

  12. Major Plates North American Plate South American Plate Antarctic Plate Eurasian Plate African Plate Indian-Australian Plate Nazca Plate Pacific Plate

  13. Plate Movement 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. Figure 15-4

  14. Fig. 15-4, p. 338

  15. EURASIAN PLATE NORTH AMERICAN PLATE ANATOLIAN PLATE CARIBBEAN PLATE JUAN DE FUCA PLATE CHINA SUBPLATE ARABIAN PLATE PHILIPPINE PLATE AFRICAN PLATE PACIFIC PLATE SOUTH AMERICAN PLATE NAZCA PLATE INDIA-AUSTRALIAN PLATE SOMALIAN SUBPLATE ANTARCTIC PLATE Divergent plate boundaries Convergent plate boundaries Transform faults Fig. 15-4a, p. 338

  16. Trench Volcanic island arc Craton Transform fault Lithosphere Rising magma Lithosphere Subduction zone Lithosphere Asthenosphere Asthenosphere Asthenosphere Divergent plate boundaries Convergent plate boundaries Transform faults Fig. 15-4b, p. 338

  17. Animation: Plate Margins PLAY ANIMATION

  18. Convergent Plate Boundary Two plates pushed together Oceanic + Continental = Subduction Zone Oceanic + Oceanic = Trench Continental + Continental = Mountain Range

  19. Divergent Plate Boundary Plates moves apart from one another Oceanic plates form oceanic ridges

  20. Transform Faults Plates slide and grind past one another along a fracture in the lithosphere

  21. Recylcing Earth’s Crust • Natural disasters like earthquakes and volcanoes occur at plate boundaries • From geologic perspective, however, there are advantages to plate movement • Forms mineral deposits and promotes and sustains life • Led to the evolution of life on Earth • Formed Earth’s primitive atmosphere and therefore climate • Rich soils

  22. Geologic Time Scale ~4.6 billion years ago: Earth believed to have formed, hot ball of rock 3.9 billion years ago: rainstorms 3.5 billion years ago: oceans, first living organisms

  23. Geologic Eras • Precambrian Era: 4.6 billion years ago- 545 million years ago • 87% of Earth’s history • Prokaryotes dominated • First eukaryotes appeared ~ 1.5 billion years ago • Simple multicellular organisms in seas • Paleozoic Era: 545 million years ago – 248 million years ago • “Explosion of life” • Many types of invertebrates in shallow seas • Early: earliest vertebrates • Middle: amphibians • Later: reptiles

  24. Geologic Eras • Mesozoic Era: 248 million years ago – 65 million years ago • Triassic: mammals made first appearance • Jurassic: “age of dinosaurs” • Cretaceous: radiation of mammals and evolution of flowering plants • Plate Tectonics: continental shift • Cenozoic Era: 65 million years ago – now • Mammals flourish • Primates evolve • Extinctions affect diversity • Modern human species evolved ~200,000 years ago

  25. EXTERNAL GEOLOGIC PROCESSES • Surface processes • Based largely on energy from the sun and gravity • Tends to wear down Earth’s surface and produce a variety of landforms by the buildup of eroded sediment • Erosion • Weathering

  26. Wearing Down and Building Up the Earth’s Surface Weathering is an external process that wears the earth’s surface down. Figure 15-6

  27. EROSION Process by which material is dissolved, loosened or worn away from one part of the earth’s surface and deposited in other places Streams are most important agents of erosion

  28. MINERALS, ROCKS, AND THE ROCK CYCLE The earth’s crust consists of solid inorganic elements and compounds called minerals that can sometimes be used as resources. Mineral resource: is a concentration of naturally occurring material in or on the earth’s crust that can be extracted and processed into useful materials at an affordable cost.

  29. ROCK A very slow chemical cycle recycles three types of rock found in the earth’s crust: Sedimentary rock (sandstone, limestone). Formed from sediment of pre-existing rocks that are weathered and eroded Metamorphic rock (slate, marble, quartzite). Formed when pre-existing rock is subjected to high temperatures or pressure Igneous rock (granite, pumice, basalt). Formed from cooled magma at or below earth’s surface

  30. Erosion Transportation Weathering Deposition Igneous rock Granite, pumice, basalt Sedimentary rock Sandstone, limestone Heat, pressure Cooling Heat, pressure, stress Magma (molten rock) Melting Metamorphic rock Slate, marble, gneiss, quartzite Fig. 15-8, p. 343

  31. SOIL: A RENEWABLE RESOURCE • Soil is a slowly renewed resource that provides most of the nutrients needed for plant growth and also helps purify water. • Soil formation begins when bedrock is broken down by physical, chemical and biological processes called weathering. • Mature soils, or soils that have developed over a long time are arranged in a series of horizontal layers called soil horizons.

  32. COMPONENTS OF SOIL • Soil Formation: • Product of weathering • Function of parent material, climate, topography, organisms, and time

  33. Wood sorrel Oak tree Organic debris builds up Lords and ladies Dog violet Rock fragments Grasses and small shrubs Earthworm Millipede Moss and lichen Fern Honey fungus O horizon Mole Leaf litter A horizon Topsoil B horizon Bedrock Subsoil Immature soil Regolith Young soil C horizon Pseudoscorpion Mite Parent material Nematode Root system Actinomycetes Red Earth Mite Fungus Mature soil Bacteria Springtail Fig. 3-23, p. 68

  34. Animation: Soil Profile PLAY ANIMATION

  35. Layers in Mature Soils • Infiltration: the downward movement of water through soil. • Leaching: dissolving of minerals and organic matter in upper layers carrying them to lower layers. • The soil type determines the degree of infiltration and leaching.

  36. Soil Profiles of the Principal Terrestrial Soil Types Figure 3-24

  37. Mosaic of closely packed pebbles, boulders Weak humus-mineral mixture Alkaline, dark, and rich in humus Dry, brown to reddish-brown with variable accumulations of clay, calcium and carbonate, and soluble salts Clay, calcium compounds Desert Soil (hot, dry climate) Grassland Soil semiarid climate) Fig. 3-24a, p. 69

  38. Acidic light-colored humus Iron and aluminum compounds mixed with clay Tropical Rain Forest Soil (humid, tropical climate) Fig. 3-24b, p. 69

  39. Forest litter leaf mold Humus-mineral mixture Light, grayish-brown, silt loam Dark brown firm clay Deciduous Forest Soil (humid, mild climate) Fig. 3-24b, p. 69

  40. Acid litter and humus Light-colored and acidic Humus and iron and aluminum compounds Coniferous Forest Soil (humid, cold climate) Fig. 3-24b, p. 69

  41. Soil Properties • Soils vary in the size of the particles they contain, the amount of space between these particles, and how rapidly water flows through them. Figure 3-25

  42. Atmosphere • Thin layer of gases that surrounds the Earth • Composed of: • Nitrogen • Oxygen • Water vapor • Argon • Carbon dioxide • Neon • Helium • Other

  43. Atmosphere has changed • Early Earth’s atmosphere consisted only of methane, water vapor, ammonia and hydrogen • Photosynthesis greatly changed our atmosphere!

  44. Five Layers

  45. Troposphere • Earth’s surface to ~ 6 miles above the surface • Contains ~ 90% of atmospheric gases • Where weather occurs

  46. Stratosphere • 6 miles to about 30 miles above Earth’s surface • Air is less dense • Less turbulent air flow • Contains the ozone layer

  47. Mesosphere, Thermosphere, Exosphere • Gases become thinner and thinner • Colder and colder • Exosphere merges with outer space

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