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Chapter 8: Community Ecology
Land and Water Use
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II. The Living World (10-15%)
1. *Ecosystem Structure (Biological populations and communities; ecological niches; interactions among species; keystone species; species diversity and edge effects; major terrestrial and aquatic biomes) 2. *Energy Flow (Photosynthesis and cellular respiration; food webs and trophic levels; ecological pyramids) 3. *Ecosystem Diversity (Biodiversity; natural selection; evolution; ecosystem services) 4. *Natural Ecosystem Change (Climate shifts; species movement; ecological succession) 5. Natural Biogeochemical Cycles (Carbon, nitrogen, phosphorus, sulfur, water, conservation of matter)
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Terrestrial Communities
Michigan contains areas of this 100 30 20 50 10 ft m Tropical rain forest Coniferous forest Deciduous forest Thorn forest Thorn scrub Tall-grass prairie Short-grass prairie Desert scrub Terrestrial Communities
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II. The Living World (10-15%)
1. *Ecosystem Structure (Biological populations and communities; ecological niches; interactions among species; keystone species; species diversity and edge effects; major terrestrial and aquatic biomes) 2. *Energy Flow (Photosynthesis and cellular respiration; food webs and trophic levels; ecological pyramids) 3. *Ecosystem Diversity (Biodiversity; natural selection; evolution; ecosystem services) 4. *Natural Ecosystem Change (Climate shifts; species movement; ecological succession) 5. Natural Biogeochemical Cycles (Carbon, nitrogen, phosphorus, sulfur, water, conservation of matter)
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Community descriptors
Physical appearance: distribution (random, clumped, pattern), location, physical structures Species diversity: richness (number of types of species), evenness( abundance of individuals. Remember Shannon index? Affected by: Latitude pollution Niche structure: number of niches, overlap, interactions.
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Latitude Effects on Richness
1,000 200 Species Diversity Species Diversity 100 100 10 90ºN 60 30 30ºS 60 80ºN 60 40 20 Latitude Latitude (a) Ants (b) Breeding birds
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Pollution Effects on Richness, Evenness
Unpolluted stream Number of diatom species Polluted stream Number of individuals per diatom species
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II. The Living World (10-15%)
1. *Ecosystem Structure (Biological populations and communities; ecological niches; interactions among species; keystone species; species diversity and edge effects; major terrestrial and aquatic biomes) 2. *Energy Flow (Photosynthesis and cellular respiration; food webs and trophic levels; ecological pyramids) 3. *Ecosystem Diversity (Biodiversity; natural selection; evolution; ecosystem services) 4. *Natural Ecosystem Change (Climate shifts; species movement; ecological succession) 5. Natural Biogeochemical Cycles (Carbon, nitrogen, phosphorus, sulfur, water, conservation of matter)
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MacArthur and Wilson Study done comparing small and large island biodiversity. Conclusions: Small islands have less animals coming to it because it is a small target to immigrate to. Smaller islands have higher extinction rates because of fewer resources and habitats Islands closer to mainlands will have higher immigration of animals.
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II. The Living World (10-15%)
1. *Ecosystem Structure (Biological populations and communities; ecological niches; interactions among species; keystone species; species diversity and edge effects; major terrestrial and aquatic biomes) 2. *Energy Flow (Photosynthesis and cellular respiration; food webs and trophic levels; ecological pyramids) 3. *Ecosystem Diversity (Biodiversity; natural selection; evolution; ecosystem services) 4. *Natural Ecosystem Change (Climate shifts; species movement; ecological succession) 5. Natural Biogeochemical Cycles (Carbon, nitrogen, phosphorus, sulfur, water, conservation of matter)
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Species Native: species that normally live in an area. In Iowa: whitetail deer, squirrel, bass, etc. Non-native: AKA invasive or alien. Brought into an area intentionally or accidentally. Can often overtake native species. Asian beetle, water milfoil, zebra mussel, etc. Indicator: species that will be affected first by environmental change. Trout (temperature), frogs, birds. Keystone: species that have an effect on a large number of other species. (pollination, predation, etc)
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Why we love Kermit the Frog
Amphibians are excellent indicator species. Why? Lifecycle puts it in contact with land and water Vulnerable to a wide variety of chemicals, radiation, pollutants Frog species loss Habitat loss Pollution Hunting (frog legs) UV radiation
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II. The Living World (10-15%)
1. *Ecosystem Structure (Biological populations and communities; ecological niches; interactions among species; keystone species; species diversity and edge effects; major terrestrial and aquatic biomes) 2. *Energy Flow (Photosynthesis and cellular respiration; food webs and trophic levels; ecological pyramids) 3. *Ecosystem Diversity (Biodiversity; natural selection; evolution; ecosystem services) 4. *Natural Ecosystem Change (Climate shifts; species movement; ecological succession) 5. Natural Biogeochemical Cycles (Carbon, nitrogen, phosphorus, sulfur, water, conservation of matter)
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Resource Partitioning
© 2004 Brooks/Cole – Thomson Learning Resource Partitioning Hawks and Owls = same prey. Number of individuals Species 1 Species 2 Region of niche overlap Resource use Hawks – hunt by day Owls – hunt by night Number of individuals Species 1 Species 2 Resource use
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Resource Partitioning
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Prey Defense Mechanisms
Avoidance: Hedgehogs (rollup/spines), lizards tails that break off, turtle (shell), Camouflage: coloring, patterns, etc to help blend in. Deer, frogs, etc. Poison: Oleander plants, some frogs Foul smell/taste: Monarchs, skunks, etc. Warning color: bright color to show poisonous nature. Mimicry: Look like a poisonous animal, act like another (bull snake “rattling”)
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Prey Defense Mechanisms
Camouflage Camouflage Foul smell Foul taste Span worm Wandering leaf insect Bombardier beetle monarch butterfly Mimicry Mimicry Mimicry Poison/Warning Color Poison dart frog Viceroy butterfly snake caterpillar io moth Prey Defense Mechanisms
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II. The Living World (10-15%)
1. *Ecosystem Structure (Biological populations and communities; ecological niches; interactions among species; keystone species; species diversity and edge effects; major terrestrial and aquatic biomes) 2. *Energy Flow (Photosynthesis and cellular respiration; food webs and trophic levels; ecological pyramids) 3. *Ecosystem Diversity (Biodiversity; natural selection; evolution; ecosystem services) 4. *Natural Ecosystem Change (Climate shifts; species movement; ecological succession) 5. Natural Biogeochemical Cycles (Carbon, nitrogen, phosphorus, sulfur, water, conservation of matter)
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Relationships Predator-Prey: “eat or be eaten”
Parasitism: one organism lives off of another. Host is often weakened, but not killed. Examples: tapeworms, wood ticks, cowbird eggs. Mutualism: both species in relationship will benefit. Example: clown fish/sea anemone. Commensalism: one organism benefits, the other is not affected. Some doubt this exists as “some effect” must occur. Example: seeds traveling on animals Review clip for visual
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II. The Living World (10-15%)
1. *Ecosystem Structure (Biological populations and communities; ecological niches; interactions among species; keystone species; species diversity and edge effects; major terrestrial and aquatic biomes) 2. *Energy Flow (Photosynthesis and cellular respiration; food webs and trophic levels; ecological pyramids) 3. *Ecosystem Diversity (Biodiversity; natural selection; evolution; ecosystem services) 4. *Natural Ecosystem Change (Climate shifts; species movement; ecological succession) 5. Natural Biogeochemical Cycles (Carbon, nitrogen, phosphorus, sulfur, water, conservation of matter)
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Primary Succession Starts with: barren rock (land) or rock bottom of lake, river, stream. Examples: area after volcanic eruption, glacier retreat. Pioneer species: usually lichen and moss. Begins to break down rock to make soil. Early successional plants: annuals, low growing, short lives. Midsuccessional plants: herbs, taller grasses, shrubs. Late successional plants: mostly trees. Climax community (succession completed) View clip
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Primary Succession Review soil formation Balsam fir, paper birch, and
Exposed rocks Lichens and mosses Balsam fir, paper birch, and white spruce climax community Jack pine, black spruce, and aspen Heath mat Small herbs and shrubs Time Review soil formation
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Secondary Succession Starts with: disaster or human activity that destroys environment, but soil remains. Follows same process as Primary succession, but lengthy soil making process gets to be “skipped” First to re-grow: small grasses, plants then leads to larger shrubs and trees.
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Mature oak-hickory forest
Young pine forest Perennial weeds and grasses Shrubs Annual weeds Time Secondary succession
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Aquatic Succession Starts with: newly formed pond/lake
Typically from glacial retreat Bottom is rocky. Sediment is brought in by runoff, erosion. Plants able to grow on edges only. Plant growth, death, decay leads to more nutrients. Normal eutrophication can lead to wetland, then meadow. Succession would end with grassland or meadow
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Aquatic Succession
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So how much of your syllabus was covered today in “biology” review material?
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II. The Living World (10-15%)
1. *Ecosystem Structure (Biological populations and communities; ecological niches; interactions among species; keystone species; species diversity and edge effects; major terrestrial and aquatic biomes) 2. *Energy Flow (Photosynthesis and cellular respiration; food webs and trophic levels; ecological pyramids) 3. *Ecosystem Diversity (Biodiversity; natural selection; evolution; ecosystem services) 4. *Natural Ecosystem Change (Climate shifts; species movement; ecological succession) 5. Natural Biogeochemical Cycles (Carbon, nitrogen, phosphorus, sulfur, water, conservation of matter)
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