1. Ecology

2. The Biosphere Earth that supports living things, includes air, land, and water Nonliving environment: Abiotic factors Air currents Temperature Moisture Light Soil

3. The Biosphere Living organisms in an environment: Biotic factors Depend on others directly or indirectly for: Food Shelter Reproduction Protection

4. Levels of Organization 1.) Organism 2.) Population Group of organisms in same species (same area, same time) Interbreed Competition

5. Levels of Organization 3.) Community Interacting populations (certain area, certain time) Change in 1 population causes change in another population

6. Levels of Organization 4.) Ecosystem Interacting populations in a biological community and its abiotic factors 2 types: Terrestrial ecosystems (land: forest, meadows, logs) Aquatic ecosystem (water: ponds, lakes, and streams); marine 70% of Earth’s surface

7. Levels of Organization 5.) Biosphere The Earth including all of its abiotic and biotic factors.

8. Levels of Organization

9. Organisms in an Ecosystem Habitat: place organism lives Niche: organism’s job

10. Survival Relationships Predator-prey relationships (temporary) & Symbiosis (Symbiotic relationships) living together; close association between organisms of different species Permanent or long-lasting

11. Survival Relationships Three types of symbiosis Mutualism… Commensalism… Parasitism…

12. Symbiotic Relationships Mutualism Both species benefit Example: ants and acacia trees Ant  protects the tree from animals Tree  nectar and home for ants

13. Mutualism

14. Symbiotic Relationships Commensalism One species benefits, the other not harmed or benefited Example: Spanish moss and trees Spanish moss: hangs on tree (habitat) Trees: nothing happens to them

15. Commensalism

16. Symbiotic Relationships Parasitism Harm 1 species & benefits the other Harm but not usually kill host Ticks, lice, tapeworms, some bacteria Cowbirds –lay eggs in other birds nest, their young survive instead of other bird’s young

17. Parasitism

18. Defense Strategies Mimicry – Camouflage –

19. Nutrition and Energy Flow Chapter 2.2 Page 46 - 63

20. Flow of Energy Ultimate source of energy for life: SUN The producers  Autotrophs Use photosynthesis to convert light energy into chemical energy Examples: plants & green algae

21. Flow of Energy The consumers  Heterotrophs Feeds on other organisms Herbivore  feeds only on plants Carnivore  feed only on other heterotrophs; meat Scavengers  eat dead animals Omnivores  eat both autotrophs (plants) & heterotrophs (animals) Decomposers  break down and release nutrients from dead organisms

22. Flow in Ecosystems Energy is released into environment as heat as you move through the levels Models used to study the flow: Food Chain Food Web

23. Food Chain Food chain: nutrients and energy move from autotrophs to heterotrophs to decomposers Berries  Mice  Black bear Trophic level: feeding step in the passage of energy and materials One possible route for transfer of matter and energy

24. Food Chains

25. Food Webs Shows all possible feeding relationships at each trophic level in a community

27. Ecological Pyramids Shows how energy flows through an ecosystem Amount of available energy decreases at each succeeding trophic level Total energy transfer to each level: 10% Biomass: total weight of living matter at each trophic level

28. Directions: On page 41, Table 2.1 lists a variety of ecosystems that exist in our biosphere (earth). Choose one of these ecosystems that you are familiar with and create an illustration of a typical food web (pg 5) AND food chain (pg 7) that contains examples of consumers and producers from each trophic level. BE CREATIVE! Draw pictures, use color, use headings! In your BIN, pages 5 & 7, you’ll create a food web and food chain.

29. Cycles of Nature Water Cycle *** Carbon Cycle*** The Nitrogen Cycle Phosphorous Cycle

30. The Water Cycle All life depends on water. The water cycle explains how water is recycled throughout the biosphere. Evaporation, condensation, precipitation, and transpiration are all important processes that move water throughout this cycle.

31. The Nitrogen Cycle All life on earth is based on carbon molecules. Framework for macromolecules (polymers) Autotrophs take in carbon dioxide to produce sugar which heterotrophs eat. Heterotrophs breath out CO2 which autotrophs take in…and the cycle continues. BACTERIA FIX NITROGEN!!