1. Chapter 3: The Biosphere What is ecology? Ecology and Biomes

2. Ecology Ecology – the study of interactions among organisms and between organisms and environment Interdependence- is mutual dependence between things.

3. Levels of Organization

4. Biosphere – largest, portions of planet where life exists (land, H2O, air) –8 km above to 11 km below

5. Levels of Organization Biome – group of ecosystems with same climate, rainfall/freshwater, elevation, latitude Ecosystem – collection of all organisms in a particular place together with the abiotic (physical) environment.

6. Levels of Organization Community – groups of different populations that live together in a defined area.

7. Levels of Organization Population – groups of individuals of same species in same area.

8. Levels of Organization Species – group of organisms so similar that they can mate and produce fertile offspring.

9. Biotic and Abiotic Factors Biotic – living –Plants, Animals,Mold, Fungi, Bacteria, Protist Abiotic – Nonliving –Sunlight, soil, wind, water, temperature Habitat – the area where an organism lives; includes both biotic and abiotic factors.

10. Ecological Methods 1.Observation – 1 st step to designing an experiment 2.Experiment – test hypotheses; imitate & manipulate 3.Modeling – make models based on observation & experiment Helps make future predictions

11. 3.2 Energy, Producers, and Consumers One of the most important factors to determine capacity to sustain life Leopard, Hyena, Lion Peregrine Falcon Dive

12. Producers (Autotrophs) Can trap sunlight to produce food –Plants –Some protist –Some bacteria Photosynthesis – captures solar energy and converts it to chemical energy 6CO 2 + 6H 2 O C 6 H 12 O 6 + 6O 2 Chemosynthesis – Chemical energy used to produce carbohydrates SUN

13. Consumers (Heterotrophs) Can’t trap energy directly; must acquire it from other organisms –Herbivores – plants –Carnivores – animals –Omnivores – both –Detritivores – remains of dead plants & animals –Decomposers – break down organic matter

14. 3.3 Energy Flow in Ecosystems Food Chains and Food Webs

15. SUN AutotrophsHeterotroph 1.Food Chain – energy trapped by producers passed on when organisms eat and are eaten 2.Food Web – relationship more complex than a chain

16. Trophic Levels and Ecological Pyramids Trophic Levels – each step in a food chain/web Ex: producers, then consumers Ecological Pyramids – shows relative amount of energy at each level (10% rule) Biomass – total amount of living tissue within a trophic level

17. 3.4 Cycles of Matter *Recycle Matter*

18. Carbon Cycle Photosynthesis – uses CO2 from atmophere –Happens in the CHLOROPLAST 6CO 2 + 6H 2 O C 6 H 12 O 6 + 6O 2 Respiration – returns CO2 to atmoshere –Happens in the MITOCHONDRIA C 6 H 12 O 6 + O 2 H 2 O + CO 2

19. Carbon Cycle

20. The Carbon Cycle 1.Volcanoes, respiration, fossil fuels, and decomposition add CO2 to atmosphere. 2.Plants take CO2 and make carbohydrates 3.Plants are eaten by animals and carbohydrates are passed through the food chain. 4.As the animal breathes and eventually dies and decomposes CO2 is return to atmosphere.

21. Water Cycle Bill Nye - Clouds Bill Nye - Clouds

22. Water Cycle 1.Water enters the atmosphere by: Evaporation – water changes from a liquid to a gas Transpiration – Evaporation through leaves 2.As water rises it cools condenses into tiny droplets that form clouds. 3.Droplets returns to Earth as precipitation. 4.Water enters the rivers, ground water, ocean or plant roots to restart cycle.

23. Nitrogen Cycle

24. 1.Nitrogen gas makes up 78% of atmosphere 2.Nitrogen Fixation: bacteria take nitrogen gases and turn it into ammonia, nitrite, and nitrate. 3.Plants and animals use nitrate to make amino acids. 4.Animal dies and decomposes returning nitrates to the soil. 5.Denitrification: other bacteria convert nitrates into nitrogen gas. Legumes and Nitrogen Fixing Bacteria Algae Blooms

25. The Phosphorous Cycle Phosphate – parts of DNA/RNA Found in rocks that are worn down Washes into rivers/streams/oceans for marine organisms Taken in by plants and turned into organic compounds

26. Nutrient Limitation Primary Productivity – the rate at which organic molecules are created by producers If nutrients are in short supply, they are called LIMITING NUTRIENTS Ex: Nitrogen is often limiting in water; if there is suddenly an input of N (fertilizer runoff), organisms can grow rapidly (Algal Bloom)

27. Discussion questions: 1.How many stops can you make on your trip? 2.Will your journey ever end? 3.Was everyone’s journey the same? Why not? 4.What would happen if a farmer used too much fertilizer? (In this game, that would mean that everyone started from the fertilizer station at the same time.) 5.Livestock farming creates a large amount of animal waste. How would this affect the nitrogen cycle?

30. Bald Eagle – Temperate Forest

31. Black bear – Temperate Forest

32. Silver Gibbon – Tropical Forest

33. Toucan – Tropical Forest

34. Pit Viper – Tropical Forest

35. Mountain goat – Boreal - Alpine

36. Snowy owl – Tundra

37. Caribou – Tundra

38. Desert Big Horn – Desert

39. Antelope – Desert

40. Gila Monster – Desert

41. Koala – Grassland

42. Lion– Grassland

43. Zebra - Grassland

44. The three basic types of population distribution within an area. From left to right, spaced (uniform/regular), random and clumped (aggregated

45. Questions for tree hole community article: 1.What is a tree hole community (what lives there, what interactions exist)? 2.How did this scientist choose to gather data about the tree hold community (what method did he use to study it)? 3.How did the researcher describe the relationships with the tree holes? 4.What three factors did this particular researcher study within the tree holes? 5.Lastly, why can’t interactions between wolf and deer populations be studied the same way as tree holes?

46. The three basic types of ecological pyramids: energy, biomass and numbers.

48. Marine environments can have inverted biomass pyramids because primary producers are phytoplankton. These tiny photosynthetic organisms reproduce rapidly so a small mass has a fast rate of primary production (energy available)

49. Why is this pyramid of numbers inverted?

50. If a person needs 3,000 Calories per day, then 30,000 Cal beef are needed, which in turn need 300,000 Cal of corn, which in turn means 30,000,000 Cal of sunshine. This works out to be 1.5 acres of corn per day per person. If the person ate corn directly then 10 people could be supported by the same 1.5 acres of corn.