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Announcements Turn in the Community Interactions Worksheet to the black tray. Pick up the Ecological Succession Worksheet and begin working. Remember,

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Presentation on theme: "Announcements Turn in the Community Interactions Worksheet to the black tray. Pick up the Ecological Succession Worksheet and begin working. Remember,"— Presentation transcript:

1 Announcements Turn in the Community Interactions Worksheet to the black tray. Pick up the Ecological Succession Worksheet and begin working. Remember, the Ecology Test is on April 7, 2015 (next Tuesday)!

2 Chapter 54.2 Bottom-Up and Top-Down Controls
Simplified models based on relationships between adjacent trophic levels are useful for describing community organization. V  H V  H V <--> H V = vegetation H = herbivores The V  H linkage suggests a bottom-up model, which postulates a unidirectional influence from lower to higher trophic levels. To change the community structure of a bottom-up community, you need to alter biomass at the lower trophic levels, allowing those changes to propagate up through the food web. The top-down model postulates the opposite: predation mainly controls community organization because predators limit herbivores, herbivores limit plants, and plants limit nutrient levels through nutrient uptake. The effects move down the trophic structure as alternating +/- effects.

3 Ecologists have applied the top-down model to improve water quality in polluted lakes.
Biomanipulation attempts to prevent algal blooms and eutrophication by altering the density of higher-level consumers instead of using chemical treatments.

4 Biogeographic factors affect community diversity
Chapter 54, Section 4 Ecologists have recognized that large-scale biogeographic factors contribute to the range of diversity observed in communities. The contributions of two biogeographic factors in particular- the latitude of a community and the area it occupies- have been investigated for more than a century.

5 Latitudinal Gradients
In the 1850s, both Charles Darwin and Alfred Wallace pointed out that plant and animal life was generally more abundant and diverse in the tropics than in other parts of the globe. Researchers have confirmed this observation. Example: 6.6 hectare plot in Malaysia contains 711 tree species, while a 2 hectare plot of deciduous forest in Michigan contains tree species. The two key factors affecting latitudinal gradients of species richness are evolutionary history and climate. Deciduous Forest in Michigan- low richness Forest in Malaysia- high richness

6 Latitudinal Gradients- Evolutionary History
Older community Latitudinal Gradients- Evolutionary History Over the course of evolutionary time, species richness may increase in the community as more speciation events occur. Tropical communities are generally older than temperate or polar communities. Temperate and polar communities have repeatedly “started over” after major disturbances from glaciations. The growing season in tropical forests is about five times as long as the tundra communities. Intervals between speciation events are shorter in the tropics. Younger community

7 Latitudinal Gradients- Climate
Climate is a primary cause of the latitudinal gradient in richness and diversity. In terrestrial communities, the two main climatic factors correlated with diversity are sunlight and precipitation. The two factors can be considered together by measuring a community’s rate of evapotranspiration, the evaporation of water from soil and plants together. Evapotranspiration, a function of solar radiation, temperature, and water availability is much higher in hot areas with abundant rainfall. The species richness of animals and plants correlates well with evapotranspiration.

8 Area Effects In 1807, naturalist and explorer Alexander von Humboldt described on of the first patterns of species richness to be recognized: the species area curve. Species-area curve: all other factors being equal, the larger the geographic area of a community, the more species it has. In part because larger areas offer a greater diversity of habitats and microhabitats. Applies in many situations, from surveys of and diversity in New Guinea to studies of plant species richness on islands of different sizes.

9 Area Effects- Island Large Island = high richness
Two factors that determine the number of species on the island are the rate at which new species immigrate to the island and the rate at which species become extinct on the island. As the number of species on the island increase, the immigration rate of new species decreases. As more species inhabit and island, extinction rates on the island increase because of the greater likelihood of competitive exclusion. Two physical factors of the island affect immigration and extinction rates: its size and its distance from the mainland. Small islands have lower immigration rates. Small islands have higher extinction rates. A closer island has a higher immigration rate and lower extinction rate. Small Island = low richness

10 Pathogens alter community structure locally and globally
Chapter 54, Section 5 Pathogen: disease causing organisms and viruses Community ecology provide the foundation for understanding the life cycles of pathogens and their interaction with hosts. Pathogen interaction are greatly influenced by changes in the physical environment. To control pathogens and the disease they cause, scientists need an ecosystem perspective.

11 Effects on Community Structure
Coral reef communities are increasingly susceptible to the influence of newly discovered pathogens. White-band disease kills corals by causing their tissue to slough off in a band from the base to the tip of branches. Because of this disease, certain species of coral have disappeared from the Caribbean since the 1980s. When corals die, they are quickly overgrown by algae. Herbivores that feed on algae come to dominate the fish community. Eventually, the corals topple because of damage from storms and other disturbances. In the forests and savannas of California, trees of several species are dying from sudden oak death (SOD). This disease is caused by a fungus-like protest. The loss of these oaks has led to the decreased abundance of at least five bird species.

12 Community Ecology and Zoonotic Disease
Three-quarters of emerging human disease are cause by zoonotic pathogens- those that are transferred to human from other animals, either through direct contact or by means of a vector. Ecologist use their knowledge of community interactions to track the spread of zoonotic diseases. Example: Identifying the community of host and vectors for a pathogen can help prevent diseases such as Lyme disease. Example: Spread of avian flu from wild birds to domesticated birds to humans. Human activities are transporting pathogens around the world and unprecedented rates. Scientists bands a young gyrfalcon as part of a project to monitor the spread of avian flu.


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