1. Population Dynamics and Growth Pre AP Biology Spring ‘12

2. Competition Competition occurs when 2 or more species use the same resource. Examples of the resource are: –Food –Light –Space –Shelter –Water –Nesting sites

3. Limiting factors Limiting factors are the biotic and abiotic factors in an ecosystem that limits the existence, numbers or reproduction the organisms in that environment. PopulationPopulation LowENVIRONMENTAL FACTORHigh Zone of stress optimum conditions stress zone of Intoleranceintolerance

4. Limiting Factors Examples of limiting factors: Temperature: organisms have an optimum temperature range in which they can survive. CO 2 levels O 2 levels Humidity Amount of sunlight Prey availability Mineral availability

5. Kinds of Limiting Factors 1.Density-dependent – has an increasing effect as population increases. Usually biotic. ex: disease, parasites, competition for food 2.Density-independent – has an effect on all populations regardless of their population. Usually abiotic. ex: sunlight, temperature

6. How Predation Helps Predators help keep population size within the limits of available resources.

7. Limiting factor graph (example) Graph the temperature tolerance for 2 species of plants (aloe vera and ivy). The data is in sets of three: A, B, C A = temperature B = number of aloe vera C = number of ivy Use 2 different colors. Remember every graph needs a title, x and y axis labeled, and a legend

8. Data 0,0,0; 10,0,0; 20,0,2; 30,0,10; 40,2,20; 50,5,40; 60,10,60; 70,12,70; 80,30,60 90,50,30; 100,40,10; 110,20,2 120,5,0 130,0,0 140, 0,0

9. Practice Make a tolerance graph for 2 kinds of small mammals. Highlight the zones of intolerance for both and place a star at the optimum temperature for both. The first number is temperature, the second is the population of arctic hare and third number is the population of jackrabbit. 0,20,0 20,40,0 40,20,10 60,0,15 80,0,30 100,0,25 120,0,0

10. Practice Make a tolerance graph for 2 kinds of fish. Highlight the zones of intolerance for both and place a star at the optimum salinity (% of salt in water) for both. The first number is the salinity (parts per million), the second is the population of trout and third number is the population of sea bass. 0, 0, 0; 2, 10, 0 4, 20, 0 8, 60, 0 10, 40, 2 15, 10, 10 20, 2, 50 25, 0, 35 30, 0, 15 40, 0, 0

11. Practice Make a tolerance graph for 2 kinds of small mammals. Highlight the zones of intolerance for both and place a star at the optimum temperature for both. The first number is temperature, the second is the population of arctic hare and third number is the population of jackrabbit. 0,20,0 20,40,0 40,20,10 60,0,15 80,0,30 100,0,25 120,0,0

12. Practice Make a tolerance graph for 2 kinds of fish. Highlight the zones of intolerance for both and place a star at the optimum salinity (% of salt in water) for both. The first number is the salinity (parts per million), the second is the population of trout and third number is the population of sea bass. 0, 0, 0; 2, 10, 0 4, 20, 0 8, 60, 0 10, 40, 2 15, 10, 10 20, 2, 50 25, 0, 35 30, 0, 15 40, 0, 0

13. Practice Make a tolerance graph for 2 kinds of small mammals. Highlight the zones of intolerance for both and place a star at the optimum temperature for both. The first number is temperature, the second is the population of arctic hare and third number is the population of jackrabbit. 0,20,0 20,40,0 40,20,10 60,0,15 80,0,30 100,0,25 120,0,0

14. Practice Make a tolerance graph for 2 kinds of fish. Highlight the zones of intolerance for both and place a star at the optimum salinity (% of salt in water) for both. The first number is the salinity (parts per million), the second is the population of trout and third number is the population of sea bass. 0, 0, 0; 2, 10, 0 4, 20, 0 8, 60, 0 10, 40, 2 15, 10, 10 20, 2, 50 25, 0, 35 30, 0, 15 40, 0, 0

15. Population Growth Population growth is a change in population with time 3 kinds of growth graphs: –Linear growth –Exponential growth –Logistic growth

16. Logistic is most common Linear growth almost never occurs. It assumes the exact same rate of growth. (If every 2 people had 3 children…we’d replace ourselves + 1) Population growth is sometimes exponential if resources are unlimited Logistic growth is the most common because it represents exponential growth until resources limit growth and it levels out.

17. Carrying capacity Carrying capacity – number of organisms of a population that an environment can support 2 kinds of strategists or patterns of population growth: r-strategists k-strategists

18. R-strategists Have a rapid period of population growth The rapid growth far exceeds carrying capacity Rapid growth followed by a crash After the crash there is another period of rapid growth, etc. This organisms have many offspring, don’t care for their young, and have short life Examples: bugs and fish

19. K-strategists Have a long period of slow growth Then they reach the carrying capacity. At that point they have minor fluxuations in growth around carrying capacity. They have few young, a long life, and tend to take care of their young. Examples: most mammals

20. Homework Answer the following questions about the graph. 1.Give the zones of intolerance for aloe vera and for ivy? 2. What is the optimum temperature for aloe vera? 3.Which plant grows better outside in South Texas? 4.How could a person who owns a gardening store use this information?

21. Pre AP homework 5. Read page 370 and answer question #2 and #3 on page 370. I expect more than a sentence answer. Your answers should fill more than a half a page.