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Population and Community Ecology

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Presentation on theme: "Population and Community Ecology"— Presentation transcript:

1 Population and Community Ecology
Chapter 6 Population and Community Ecology

2 Nature exists at several levels of complexity

3 What levels of complexity make up the biosphere?
What do scientists study at each level of complexity? How do populations and communities differ?

4 If INPUTS exceed OUTPUTS populations GROW
Populations are dynamic (constantly changing) The size of a population is the difference between the number of INPUTS (births and immigrations) and OUTPUTS (deaths and emigration) If INPUTS exceed OUTPUTS populations GROW If OUTPUTS exceed INPUTS populations DECREASE

5 Population ecology: The study of factors that cause populations to increase or decrease.

6 Factors that Regulate Population Abundance and Distribution
Population size- the total number of individuals within a defined area at a given time. (California Condor) Population density- the number of individuals per unit area at a given time. (hunting/fishing zones) Population distribution- how individuals are distributed with respect to one another. Population sex ratio- the ratio of males to females (estimate number of offspring growth in next generation) Population age structure- how many individuals fit into particular age categories. (helps predict how fast populations grow)

7 Population Distribution

8 Factors that Influence Population Size
Density-dependent factors- the size of the population will influence an individual’s probability of survival. Amount of available food Paramecium Food= limiting resource Carrying capacity (K)= limit to how many individuals a food supply can support

9 Factors that Influence Population Size
Density-independent factors- the size of the population has no effect on the individual’s probability of survival. (tornado) Bird populations

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11 What factors regulate the size of a population?
What did Gause discover in his classic experiments? What is the difference between density- dependent and density-independent factors that influence population size? Give an example…

12 Exponential Growth Model
Population growth models – used to predict population size at any moment in time.

13 Exponential Growth Model
Growth rate- the number of offspring an individual can produce in a given time period, minus the deaths of the individual or offspring during the same period. Intrinsic growth rate- under ideal conditions, with unlimited resources, the maximum potential for growth. R

14 Exponential Growth Model
Nt = N0ert R= intrinsic growth rate of a population N0 = # of reproducing individuals that are currently in the population Nt = population’s future size T= time E= the base of the natural logarithm

15 Exponential Growth Model
J-shaped curve- when graphed the exponential growth model looks like this. (population is not limited by resources)

16 After one year – earned $50 2nd year = 52.50 10th year = 77.57
Exponential Growth $1000 in the bank 5% annual interest rate After one year – earned $50 2nd year = 52.50 10th year = 77.57 20th = (density independent – value will grow by same % each year)

17 No population can experience exponential growth indefinitely!

18 “Do the math” Look at pg. 156 After reading through try to complete “YOUR TURN” on your own paper.

19 Logistic Growth Model Logistic growth- when a population whose growth is initially exponential, but slows as the population approaches the carrying capacity (k). S-shaped curve- when graphed the logistic growth model produces an “S”.

20 Variations of the Logistic Model
If food becomes scarce, the population will experience an overshoot by becoming larger than the spring carrying capacity and will result in a die-off, or population crash.

21 Variations of the Logistic Model
Reindeer in St Paul island – Alaska Limited food, water and nest sites…

22 Variations of the Logistic Model
Lynx and Hares – Canada (predator/prey)

23 Variations of the Logistic Model
Wolves and Moose – Isle Royale National Park

24 Reproductive Strategies
K-selected species- the population of a species that grows slowly until it reaches the carrying capacity. Ex. elephants, whales, and humans. R-selected species- the population of a species that grows quickly and is often followed by overshoots and die-offs. Ex. Mosquitoes, mice and dandelions

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26 Survivorship Curves

27 Metapopulations Metapopulations- a group of spatially distinct populations that are connected by occasional movements of individuals between them. corridor

28 What happens if you alter the r or K terms in the logistic growth model?
What did scientists learn from the records of the Hudson’s Bay Company? What is a metapopulation? How do they contribute to the preservation of biodiversity?

29 Community Ecology The distribution of a species is determined by 3 factors Range of abiotic and biotic factors that it can tolerate Able to disperse Interactions with other species Competition Predation Mutualism Commensalism

30 Competition Competition- the struggle of individuals to obtain a limiting resource . Gause – two species of paramecium Competitive exclusion principle – two species cannot exist if they compete for the same resources.

31 Resource Patitioning

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35 Predation Predation- the use of one species as a resource by another species. True predators- kill their prey. Herbivores- consume plants as prey. Parasites- live on or in the organism they consume. Parasitoids- lay eggs inside other organisms.

36 Mutualism Mutualism- A type of interspecific interaction where both species benefit. Acacia Trees and Pseudomyrmex ants

37 Commensalism Commensalism- a type of relationship in which one species benefits but the other is neither harmed nor helped.

38 Symbiotic Relationship
Relationship between two species that live in close association with each other Commensalism, mutualism, parasatism

39 Keystone Species Keystone species- a species that plays a role in its community that is far more important than its relative abundance might suggest.

40 Primary Succession Primary succession- occurs on surfaces that are initially devoid of soil.

41 Secondary Succession Secondary succession- occurs in areas that have been disturbed but have not lost their soil.

42 Aquatic Succession

43 Factors that determine species richness:
Latitude Time Habitat size

44 Theory of Island Biogeography
Theory of island biogeography- the theory that explains that both habitat size and distance determine species richness.


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