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Ecosystems

Ecosystems. Chapter 30. Ecosystem. An array of organisms and their physical environment, interconnected through a one-way flow of energy and cycling of raw materials. Modes of Nutrition. Photoautotrophs Capture sunlight or chemical energy Primary producers Heterotrophs

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Ecosystems

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  1. Ecosystems Chapter 30

  2. Ecosystem An array of organisms and their physical environment, interconnected through a one-way flow of energy and cycling of raw materials

  3. Modes of Nutrition • Photoautotrophs • Capture sunlight or chemical energy • Primary producers • Heterotrophs • Extract energy from other organisms or organic wastes • Consumers, decomposers, detritivores

  4. Simple Ecosystem Model Energy input from sun Producers Autotrophs (plants and other self-feeding organisms) Nutrient Cycling Consumers Heterotrophs (animals, most fungi, many protists, many bacteria) Energy output (mainly metabolic heat)

  5. Simple Ecosystem Model The role of organisms in an ecosystem

  6. fifth trophic level top carnivore (fourth-level consumer) marsh hawk fourth trophic level carnivore (third-level consumer) crow third trophic level carnivore (second-level consumer) garter snake second trophic level herbivore (primary consumer) cutworm first trophic level autotroph (primary producer) flowering plants Fig. 30-3, p.528

  7. Tall-Grass Prairie Food Web marsh hawk sandpiper crow snake frog coyote weasel badger spider sparrow pocket gopher ground squirrel vole earthworms, insects grasses, composites

  8. marsh hawk Connections in a tallgrass prairie food web Higher Trophic Levels crow upland sandpiper garter snake frog weasel badger coyote spider Second Trophic Level sparrow prairie vole pocket gopher ground squirrel earthworms, insects First Trophic Level grasses, composites Fig. 30-4, p.529

  9. energy flows in a cycle between producers and consumers nutrients are recycled by passing from producers to consumers and back again via decomposers in most ecosystems, energy flow begins with the capture of solar energy by photosynthesizers heterotrophs include bacteria and fungi Which statement about ecosystems is false?

  10. Rain Forest Rain-forest food web

  11. Energy Losses • Energy transfers are never 100% efficient • Some energy is lost at each step • Limits number of trophic levels in an ecosystem

  12. Grazing Food Web Detrital Food Web Two Types of Food Webs Energy Input: Energy Input: Transfers: Transfers: Producers (photosynthesizers) Producers (photosynthesizers) energy losses as metabolic heat and as net export from ecosystem energy in organic wastes, remains energy in organic wastes, remains energy losses as metabolic heat and as net export from ecosystem herbivores decomposers decomposers carnivores detritivores detritivores decomposers Energy Output Energy Output

  13. Ecological Pyramids • Primary producers are bases for successive tiers of consumers • Biomass pyramid • Dry weight of all organisms • Energy pyramid • Usable energy decreases as it is transferred through ecosystem

  14. Biomass Pyramid • Aquatic ecosystem, Silver Springs, Florida • Long-term study of a grazing food web third-level carnivores (gar, large-mouth bass) 1.5 second-level consumers (fishes, invertebrates) 1.1 decomposers, detritivores (bacteria, crayfish) first-level consumers (herbivorous fishes, turtles, invertebrates) 37 primary producers (algae, eelgrass, rooted plants) 809 5

  15. Energy Pyramid • Primary producers trapped about 1.2% of the solar energy that entered the ecosystem • 6–16% passed on to next level decomposers + detritivores = 5,080 21 top carnivores carnivores 383 herbivores 3,368 producers 20,810 kilocalories/square meter/year

  16. Silver Springs Study Energy flow at Silver Springs

  17. Biogeochemical Cycle • Flow of an essential substance from the environment to living organisms and back to the environment • Main reservoir is in the environment • Geologic processes, decomposers aid cycles

  18. Three Categories • Hydrologic cycle • Water • Atmospheric cycles • Nitrogen and carbon • Sedimentary cycles • Phosphorus and other nutrients

  19. Hydrologic Cycle atmosphere precipitation onto land 111,000 wind-driven water vapor 40,000 evaporation from land plants (evapotranspiration) 71,000 evaporation from ocean 425,000 precipitation into ocean 385,000 surface and groundwater flow 40,000 land ocean

  20. Watershed • A region where precipitation is funneled into a single stream or river

  21. Hubbard Brook Experiment • A watershed was experimentally stripped of vegetation • All surface water draining from watershed was measured • Deforestation caused six-fold increase in calcium content of runoff water

  22. Global Water Crisis • Limited amount of fresh water • Desalinization is expensive and requires large amounts of energy • Aquifers are being depleted • Groundwater is contaminated • Sewage, agricultural runoff, and industrial chemicals pollute rivers

  23. Aquifer Depletion Hawaiian Islands Alaska

  24. When the Earth's waters move from ocean to atmosphere to land and back again, it is called the _____ cycle. • water • hydrologic • hydrodynamic • precipitation

  25. A watershed is _____. • a stream or river • a river that discharges water directly into the ocean • a region where precipitation becomes funneled into a single stream or river • a region where precipitation becomes funneled into a reservoir for use in human communities

  26. Carbon Cycle • Carbon moves through atmosphere, food webs, ocean, sediments, and rocks • Sediments and rocks are the main reservoir • Combustion of fossil fuels changes natural balance

  27. Carbon Cycle: Marine diffusion between atmosphere and ocean combustion of fossil fuels bicarbonate and carbonate in ocean water aerobic respiration photosynthesis marine food webs death, sedimentation incorporation into sediments uplifting sedimentation marine sediments

  28. Carbon Cycle: Land atmosphere combustion of fossil fuels volcanic action aerobic respiration combustion of wood photosynthesis terrestrial rocks deforestation weathering land food webs soil water peat, fossil fuels death, burial, compaction over geologic time leaching, runoff

  29. My Carbon Cycle 1. I eat carbohydrate molecules. • These are molecules of fuel which I will “burn”. • Some of the energy released when I burn them will be trapped for me to use. The rest will be lost as heat. • The waste products of burned fuel are carbon dioxide and water. I breathe these out. • Plants (or other producers) take in carbon dioxide from the atmosphere and use it to make carbohydrate.

  30. According to the last slide, why do I eat carbohydrates? • Because they taste good. • Because they contain lots of vitamins. • Because they contain lots of energy. • Because they are low in calories.

  31. Energy saved from burning up my fuel is saved in the form of : • Muscle • ATP • Fat • Heat

  32. The only reason I need to breathe in oxygen is : • I need oxygen to “burn” fuel molecules. • All living things need oxygen. • Oxygen + carbon = carbon dioxide. • Oxygen is corrosive.

  33. Breathing out : • Helps me regulate my body temperature. • Gets rid of excess fuel molecules. • Burns extra calories. • Gets rid of the waste products of burned fuel.

  34. The carbon in the plants I eat comes from : • The atmosphere. • The food they eat. • The soil. • Water.

  35. The carbon in the steak I eat comes from : • Supplements in animal feed. • Vitamins. • The cow’s drinking water. • The plants eaten by the cow.

  36. Greenhouse Effect • Greenhouse gases impede escape of heat from Earth’s surface

  37. Global Warming Long-term increase in temperature of Earth’s lower atmosphere

  38. Carbon Dioxide Increase • Carbon dioxide levels fluctuate seasonally • Average level is steadily increasing • Burning of fossil fuels and deforestation are contributing to the increase

  39. Other Greenhouse Gases • CFCs: synthetic gases used in plastics and in refrigeration • Methane: released by natural gas production, livestock • Nitrous oxide: released by bacteria, fertilizers, and animal wastes

  40. Greenhouse Gases Increasing

  41. Table 30-1, p.537

  42. Nitrogen Cycle • Nitrogen is used in amino acids and nucleic acids • Main reservoir is nitrogen gas in the atmosphere • Nitrogen gas can’t enter food web

  43. Fig. 30-16, p.538

  44. Nitrogen Fixation • Plants cannot use nitrogen gas • Nitrogen-fixing bacteria convert nitrogen gas into ammonia (NH3) • Ammonia and ammonium can be taken up by plants

  45. Air Pollution • Effects of nitrogen oxides released by burning fossil fuels

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