1. Ecological Principles

2. I. What is the biosphere and how is it organized? A. Biosphere – Area of the earth where life exists; extends from oceans depths to a few kilometers above land. B. Biomes – An extensive areas of similar climate and vegetation; there are six terrestrial biomes and three aquatic biomes.

3. C. Ecosystem 1. A physically distinct, self supporting unit of interacting organisms and their environment. Ex. Forest or pond 2. Four important processes: a. Production of energy (usually from sunlight) b. Energy transfer c. Decomposition d. Reuse of nutrients 3. Includes biotic and abiotic factors. a. Biotic – living things b. Abiotic – nonliving things Ex. Temperature, light, nutrients

4. D. Communities and Populations 1. Communities – all the ecosystem’s interacting biotic factors. 2. Communities may be broken down into smaller units called populations. a. Populations – A group of individuals that belong to the same species and occupy the same area and share common resources. i. Each population has a specific niche, which means total way of life. ii. The niche includes habitat, place in food web, competition, interrelationships, and resource needs (temperature, water) b. A community may have 1000’s of populations (tropical rainforest) or relatively few (tundra)

5. II. How is energy transferred in an ecosystem? A. Trophic Levels 1. Organisms in a community survive by either producing or consuming food. 2. Trophic levels – levels of feeding in a community a. Producers – produce food for themselves (ex. plants). Other organisms may eat producers. b. Consumers – must take in food (ex. fungi) i. Primary Consumers – also called herbivores (ex. cow) ii. Secondary and Tertiary Consumers – may be carnivores (ex. lion) or omnivores (ex. bear) iii. Decomposers – as they consume, they break down wastes and dead organisms and return nutrients to the soil.

6. B. Food Webs 1. Made up of overlapping food chains. 2. Shows feeding connections; arrows illustrate energy transfer 3. Ex.

7. C. Ecological Efficiency 1. Producers have most available energy (sun). 2. Energy is lost as it moves up through the food web; 10% rule – only 10% of the available energy is passed to the next trophic level 3. The “lost” energy is used to catch, eat, and digest food.

8. III. How is matter reused in an ecosystem? A. Role of Decomposers 1. Decomposers break down wastes and dead organisms 2. Decomposition allows nutrients to be returned to the soil and atmosphere; this allows nutrients to be reused. 3. Decomposers include fungi, bacteria, and invertebrates.

9. B. Biogeochemical Cycles – the pathway through which a substance is recycled. 1. Water Cycle a. Enters ecosystem by precipitation; may Infiltrate the soil (be absorbed) or run-off into surface water. b. Returned to atmosphere by evaporation or transpiration (the loss of water by plants)

10. The Carbon Cycle 2. Carbon Cycle a. Powered by two main processes i. Photosynthesis – plants and algae capture CO2 from the air and change it into sugar (which have carbon) ii. Respiration – all living things break down sugars for energy, which returns CO2 to the atmosphere b. Other factors in the carbon cycle: i. Decomposition returns carbon to the soil and atmosphere. ii. Humans burn fossil fuels which adds CO2 to the atmosphere.

13. Using the Carbon Cycle diagram: 1.What are the 3 processes that ADD carbon to the atmosphere? 2.What are the processes that REMOVE carbon from the atmosphere? 3.The combustion of ___________________ by humans can add CO 2 to the atmosphere. 4.____________________ of dead organisms may return carbon to the soil. 5.How is carbon stored in plants transferred to animals?

14. 3. Nitrogen Cycle a. Nitrogen is essential for living organisms so that they can build proteins; nitrogen is plentiful in the atmosphere, but is not usable in this form. b. Nitrogen fixation – bacteria living in the root nodules of bean plants (legumes) convert nitrogen from the air into a more usable form. c. Nitrogen fixation is the first of many steps that involves bacteria and changing the form of nitrogen.

15. IV. How do living things interact in a community? A. Competition – a struggle for resources among organisms. Ex. nesting space for birds B. Predation 1. Predators are organisms that consume other organisms. Ex. Zebra eating grass 2. Prey are the organisms that are consumed. Ex. Earthworm being eaten by bird

16. Symbiosis song! C. Symbiosis – two organisms of different species living together in a close, permanent relationship; 3 types 1. Mutualism – the two organisms ­benefit each other Ex. Termite and protozoan Ex. Lichen – an alga and a fungus

17. 2. Parasitism – one organism benefits and the other is harmed Ex. Tapeworm and human Ex. Mistletoe and tree 3.Commensalism – one organism benefits and the other is unaffected. Ex. Epiphytic plants on trees Ex. Shark and remora

18. V. How do communities change over time? A. Population growth 1. Populations will grown until they reach their biotic potential, unless they are limited by factors in the environment; this type of growth is known as a J-curve.

19. 2.Limiting factors, such as availability of food, water, and space establish a carrying capacity for populations; this type of growth is known as an S-curve

20. 3. Carrying capacity is defined as the number of individuals an environment can support. Limiting factors in the environment help to maintain ecosystem stability by allowing populations to fluctuate around the carrying capacity. This is called dynamic equilibrium.

21. a. Density dependent factors have a greater effect on a population when there is a higher population density (the number of individuals in a given space). For example, competition, predation, and the spread of infectious disease are density-dependent factors. b. Density independent factors influence the size of a population regardless of its density. For example, natural disasters such as forest fires are density independent factors.

22. B.Succession is the idea that communities will replace other communities in a predictable, orderly way; this happens because every community alters the physical factors of the environment. Ex. As trees grow, they produce shade.