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Chapter 18

Chapter 18 . Intro to Ecology. 18.1 – Intro to ecology. What is ecology?. the study of interactions between organisms and the living and nonliving components of their environment. What does ecology involve?. Collecting info about organisms and their environments

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Chapter 18

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  1. Chapter 18 Intro to Ecology

  2. 18.1 – Intro to ecology

  3. What is ecology? • the study of interactions between organisms and the living and nonliving components of their environment

  4. What does ecology involve? • Collecting info about organisms and their environments • Observing/measuring interactions between organisms • Looking for patterns among organisms and their environments and explaining

  5. Interdependence • A key theme in biology • Refers to interconnectedness of organisms with each other and with the nonliving parts of their environment • Any change in the environment can affect the network of interactions and organisms seemingly far removed from the change

  6. Levels of Organization From largest to smallest: Biosphere (Biomes) Ecosystem Community Population Organism These levels of organization are considered external as opposed to the internal levels that we learned earlier.

  7. Recall internal levels of organization beginning with atoms: atoms biological molecules cell organelles cells tissues organs organ systems organism **Internal organization for unicellular organisms stops here Remember that these internal levels exist only in multicellular organisms!

  8. Ecological levels of organization defined: • organism – individual living thing • population – group of organisms of the same species living in the same area • community – all of the interacting organisms living in an area • ecosystem – living (biotic) and nonliving (abiotic) things found in a particular area • biosphere – the thin volume of Earth (extending below the surface and into the atmosphere) that supports life

  9. 18.2 – Ecology of organisms

  10. Ecosystem Components:

  11. Ecosystem Components:Aquatic vs. Terrestrial

  12. 18.3 – Energy Transfer

  13. Why do organisms need energy? • To carry out life functions like: • growth • repair • maintenance • movement • reproduction

  14. Energy flows in an ecosystem. • The amount of energy that an ecosystem receives and the amount that’s transferred from organism to organism affects the ecosystem’s structure.

  15. Within an ecosystem there are producers and consumers

  16. Biomass • Organic materials produced in an ecosystem • Producers add to the biomass by making organic molecules!

  17. Decomposers • “nature’s recyclers” • cause decay; make nutrients trapped in waste available again to autotrophs

  18. Energy Flow • Trophic level – organism’s position in a sequence of energy transfers • 1st level = producers • 2nd level = herbivores • 3rd level = primary consumers • 4th level = secondary consumers • 5th level = tertiary consumers

  19. Food chains vs. food webs • Food chains – show a single pathway of energy flow • Single food chains are rare in nature • Food webs – interrelated food chains in an ecosystem

  20. Energy transferHow much energy is available for each trophic level? • On average, 10 percent of the total energy consumed in one trophic level is incorporated into the organisms in the next • Why only 10%?! Organisms: • escape being eaten • die and become food for decomposers • have energy stored in places that can’t be used (like antlers) • need/use energy themselves • some energy is also lost in metabolism (heat) – remember that cell respiration is only 39% efficient!

  21. Eat 3° consumers Eat 2° consumers Eat 1° consumers Eat producers Produce chemical energy from sunlight

  22. Limitations of trophic levels • Ecosystems rarely have more than a few trophic levels • Since only 10 percent is available to next level, there’s not enough energy in the top level to support more levels • Organisms at lowest level usually much more abundant; more diversity at lowest level; high levels contain less energy and can support fewer individuals

  23. This energy pyramid diagram represents energy flow through four trophic levels. At the lowest level, there are a lot of producers, so the block is very wide. Only 10% of the energy is available to the next level, so there are less organisms that can exist at the level; there is less diversity. The block is smaller. This continues up the pyramid resulting in smaller and smaller blocks – fewer organisms being supported. Pyramids may be shaped a little differently depending on the ecosystem, but always follow this basic pattern

  24. 18.4 – Ecosystem recycling

  25. 3 Biogeochemical Cycles: • Water cycle • Carbon cycle (carbon/oxygen cycle) • Nitrogen cycle • These cycles are pathways of these materials from the environment, into living things, and back into the environment.

  26. Water cycle includes: • Evaporation - water enters the atmosphere from oceans, lakes, streams, etc. • Transpiration - water enters atmosphere by evaporating out of plant leaves when stomata open • Condensation – vapor to liquid • Precipitation – falling forms of water • Runoff – from land into water • Percolation – water filters down through soil/rocks • Groundwater – water beneath the surface in rock formations or spaces

  27. Carbon cycle • Cellular respiration – releases carbon into atmosphere (CO2) • Photosynthesis * - uses carbon • Decomposition – releases carbon • Fossil fuels – formed from the remains of dead organisms • Combustion – burning of fossil fuels and other organic materials; releases carbon

  28. Nitrogen cycle • All organisms need nitrogen to make • Proteins (amine group in amino acids has N) • Nucleic acids (nitrogenous bases A, T, C, G, and U have nitrogen!) • 78% of the atmosphere is nitrogen gas (N2) BUT plants can’t use it in that form... • It must be converted into nitrates (NO3)

  29. The process of converting nitrogen gas into nitrates is nitrogen fixation • Nitrogen-fixing bacteria convert nitrogen gas into a usable form • Live in soil • Live in nodules on roots of some plants like beans, peas, clover, and alfalfa

  30. Parts of the nitrogen cycle • Nitrogen fixation – converting nitrogen gas into nitrates • Ammonification – formation of ammonia (NH3) and ammonium (NH4) in the soil from decomposition of dead organisms

  31. Nitrification – performed by soil bacteria; uptake of ammonium and its oxidation into nitrites (NO2-) and nitrates (NO3-) • Erosion of nitrate rich rocks also releases nitrates into the ecosystem • Plants use nitrates! Yay! They can absorb them from the soil. Animals cannot. Boo! So how do animals get nitrogen?

  32. Assimilation – uptake of nitrates in soil by plants • Denitrification – performed by anaerobic bacteria; breakdown of nitrates that releases nitrogen gas back into the atmosphere

  33. Summary of Nitrogen cycle • Nitrogen fixing from air to soil. • Nitrogen in soil gets assimilated into living things. • Living things excrete nitrogen and die, nitrogen goes back into soil. • Bacteria convert soil Nitrogen back into atmosphere.

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