Topic Review Guide: Community Ecology

To Think About: In what ways do interactions between and within populations influence patterns of species distribution over time? In what ways do interactions between and within populations influence the amount of local and global ecosystem changes over time?

Watch:

First: Mr. Andersen’s “Populations” video

Second: Mr. Andersen’s “Niche” video

Last: Mr. Andersen’s “Ecological Succession” video

Read:

Ch. 41 – Biology in Focus

Supplementary Resources: Click the links below for more information to help you learn more about this lesson.

·  Science Daily: Competitive Exclusion Principle (Gause’s Principle)

·  Scitable: Predation, Herbivory and Parasitism

·  Scitable: Successional Changes in Communities

·  Scitable: Keystone Species

·  Ecoplexity.org: Forest Succession Animation

·  National Geographic: Keystone Species

·  Steve Hammack, Los Gatos HS, California: Community Ecology

·  The Open Door Web Site: The Transfer of Energy in A Food Chain

Listen and Look: Here is a list of key terms and concepts you will hear about and see during these podcasts and chapter readings. Get to know them! Be able to connect them to one another using a concept map.

KEY TERMS

Niche / Fundamental niche / Realized niche / Primary succession
Secondary succession / Species abundance / Species diversity / Species richness
Symbiosis / Parasitism / Commensalism / Mutualism
Keystone species / Predation / Food web / Competitive exclusion principle
Food chain / Producers / Consumers / Decomposers
Trophic levels / Autotrophs / Heterotrophs / Primary productivity
Ecological efficiency

Recall and Review: Use the lecture in the video and your textbook reading to help you answer these questions in your BILL.

1.  Create a graphic organizer that illustrates the differences between the various types of interspecies interactions. Describe how these interactions affect population densities of the species involved.

2.  Describe how ecosystems employ feedback mechanisms in order to maintain system homeostasis. Explain how a predator-prey interaction acts as an example of a negative feedback loop.

3.  The plant kudzu is considered to be an invasive species. Explain how the population of kudzu in the United States has been brought under control in the Southeast. Describe what other effects the introduction of a new predator could have on other organisms in the ecosystems where kudzu lives.

4.  Discuss how two organisms that are in direct competition with one another cannot occupy the same niche. If two organisms attempt to occupy the same niche, what does this lead to?

5.  The competitive exclusion principle states that two species cannot coexist in the same niche with all other ecological factors held constant. Describe a non-biological example of this principle.

6.  Identify the source of energy for all ecosystems. Explain how each of the following trophic levels obtains energy from this source:

a.  Producers

b.  Primary consumers

c.  Secondary consumers

d.  Decomposers

7.  Explain how and why energy is lost as it moves through ecological communities. How does this affect the length of food chains?

8.  Using a graphic organizer, describe the similarities and differences between primary and secondary succession.

9.  Label the food chains at right with the organism names and trophic level for each.

10.  The producers in the terrestrial food chain (the one on the left in the diagram) obtain 5 x 106 kJ/m/yr of energy from the Sun. Using the 10% rule, how much energy do each of the following organisms get:

a.  The mouse

b.  The snake

c.  The hawk

Learn More: For more examples of community ecology principles, use the links below:
·  McGraw-Hill: Primary Succession Animation
·  Greenriver Community College: Competitive Exclusion Animation
·  McGraw-Hill: Niches for Wading Birds
·  Prof. Danglais: Food Chain Reaction
·  KevinFlint.org: Rainforest Food Chain