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OBJECTIVE 14

OBJECTIVE 14. Trace biogeochemical cycles through the environment, including water, carbon, oxygen, and nitrogen Relating natural disasters, climate changes, nonnative species, and human activity to the dynamic equilibrium of ecosystems Describing the process of ecological succession.

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OBJECTIVE 14

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  1. OBJECTIVE 14 • Trace biogeochemical cycles through the environment, including water, carbon, oxygen, and nitrogen • Relating natural disasters, climate changes, nonnative species, and human activity to the dynamic equilibrium of ecosystems • Describing the process of ecological succession

  2. Biogeochemical Cycles

  3. The Water Cycle • CONDENSATION • Water vapor in the atmosphere condenses to form clouds. • PRECIPITATION: • Water falls to the Earth’s surface in the form of precipitation (rain or snow). • EVAPORATION and TRANSPIRATION: • Remaining water is heated by the sun and reenters the atmosphere by evaporation….OR • Some seeps into the soil becoming part of groundwater. Water is taken up by the roots of plants, passes through the plants, and reenters the atmosphere by transpiration (evaporation from leaves).

  4. The Water Cycle

  5. The Water Cycle

  6. The Carbon Cycle • Carbon gas is in the atmosphere. • PHOTOSYNTHESIS: • Carbon dioxide in the air or dissolved in water if used in by plants, algae, or bacteria in photosynthesis and then release oxygen back into the atmosphere. • RESPIRATION, COMBUSTION, OR EROSION • Respiration: All living organisms use take in oxygen for respiration and release carbon dioxide back into the atmosphere. • Combustion: Carbon returns to the atmosphere through combustion or burning of wood or fossil fuels. • Erosion: As limestone erodes, the carbon becomes available to other organisms.

  7. The Carbon Cycle

  8. The Oxygen Cycle • Oxygen is in the atmosphere. • Respiration: ALL living things take in oxygen from the atmosphere and release carbon dioxide. • Photosynthesis: Plants take in carbon dioxide and release oxygen back into the atmosphere.

  9. The Oxygen Cycle

  10. The Nitrogen Cycle • N2 (nitrogen gas) makes up about 78 percent of the atmosphere. • Nitrogen fixation: Nitrogen-fixing bacteria that live in the soil take nitrogen from the atmosphere and change it to a form that organisms can use (ammonia or NH3). • Ammonification: Bacteria produce ammonia from decaying matter. • Nitrification: Nitrate is produced from ammonia by the nitrogen-fixing bacteria. • Assimilation: Plants absorb nitrogen and use it to form organic compounds. • Denitrification: Nitrate is converted to nitrogen gas and release back into the atmosphere. • Organisms eat the plants, and the get rid of the nitrogen in the form of waste. The nitrogen returns to the soil.

  11. The Nitrogen Cycle

  12. Ecosystem Equilibrium

  13. Natural disasters • Hurricanes, Tornadoes, Fires, Landslides, Floods, Droughts, etc. • Can wipe out entire populations within an ecosystem • Can sometimes move entire populations to a new location

  14. Climate changes • Organisms must adapt to new climates or migrate to a new location to survive

  15. Nonnative species • Interrupting the food chain • Habitat degradation • Diseases

  16. Human activity • Human-induced environmental changes • Acid Rain • Caused by coal-burning power plants (sulfur combines with water vapor in the atmosphere to produce sulfuric acid) • Dying lakes and damaged forests due to pH acidity in the environment • Ozone Hole • Allows more ultraviolet radiation to read Earth’s surface causing an increase in human diseases such as skin cancer, cataracts, and cancer of the retina • Major cause: CFCs (chlorofluorocarbon chemicals) found in coolants in refrigerators and air conditioners, aerosol propellants in spray cans, plastic-foam cups and containers; use is now limited

  17. Human activity • Human-induced environmental changes • Global Warming • Large increase in carbon dioxide in the Earth’s atmosphere related to burning of fossil fuels that has accompanied forest clearing and urban industrialization • Caused by the greenhouse effect – chemical bonds in the carbon dioxide molecules absorb solar energy as heat radiates from the Earth trapping the heat • Chemical Pollution • Industrial and Agricultural

  18. Human activity • Human-induced environmental changes • Loss of Resources • Extinction of species • Destruction of habitats • Loss of Topsoil • Turning over to eliminate weeds • Allowing animals to overgraze ranges and pastures • Poor land management • Ground-water pollution and depletion • Wasted on watering lawns, washing cars, leaky and inefficient faucets and toilets • Polluted by irresponsible disposal of chemical wastes

  19. Human activity • Human-induced environmental changes • Human Population Growth

  20. Ecological Succession

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