1 / 20

Ecology

Ecology. An Introduction to Ecology and the Biosphere. The Scope of Ecology. High in the sky, a series of satellites circle Earth. These satellites aren’t relaying the chatter of cell phones. They are transmitting data on the annual migration of gray whales. The Journey of Gray Whales.

dhealey
Download Presentation

Ecology

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Ecology An Introduction to Ecology and the Biosphere

  2. The Scope of Ecology • High in the sky, a series of satellites circle Earth. • These satellites aren’t relaying the chatter of cell phones. • They are transmitting data on the annual migration of gray whales.

  3. The Journey of Gray Whales • Leaving their calving grounds near Baja California, adult and newborn gray whales (Eschrichtius robustus) swim side by side on a remarkable 8,000 km journey.

  4. Headed to the Arctic • The whales are headed to the Arctic Ocean to feed on the crustaceans, tube worms and other creatures that thrive there in the summer. • Satellites track their progress.

  5. Recovery from Brink of Extinction • Satellites also help scientists track the recovery of the blue whale from extinction. • A century ago, whaling had reduced the population to only a few hundred. • Today, after 70 years of protection, more than 20,000 travel to the Arctic each year.

  6. Questions for Ecologists: • What environmental factors determine the geographic distribution of gray whales? • How do variations in their food supply affect the size of the gray whale population?

  7. What is Ecology? • “oikos” = home, “logos” = to study • The scientific study of the interactions between organisms and the environment.

  8. Studying Ecology at the Organism Level: • Studies how an organism’s structure, physiology, and (for animals) behavior meet the challenges posed by its environment. • Ex: How do hammerhead sharks select a mate?

  9. Population Ecology • A population is a group of individuals of the same species living in an area. • Population ecology analyzes factors that affect population size and why it changes through time. • Ex:What is the carrying capacity of the Kaibab Forest whitetail deer population?

  10. Community Ecology • A community is a group of populations of different species in an area. • Community Ecology examines how interactions between species, such as predation and competition, affect community structure and organization. Ex: What factors influence the diversity of species that make up a forest?

  11. Ecosystem Ecology • An ecosystem is the community of organisms in an area and the physical factors with which those organisms interact. • Ecosystem Ecology emphasizes energy flow and chemical cycling between organisms and the environment. Ex: What factors control photosynthetic productivity in the savannah grassland of Africa?

  12. Biome Ecology • A biome is a large region characterized by a specific kind of climate and certain kinds of plant and animal communities. • Biome Ecology focuses on the weather and climate patterns of an area (biogeography) that determines what kinds of organisms live there. Ex: How would a drought affect the population of Black-footed Ferrets in the prairie?

  13. Global Ecology • The biosphere is the global ecosystem-the sum of all the planet’s ecosystems. • Global Ecology examines how the regional exchange of energy and materials influences the functioning and distribution of organisms across the biosphere. Ex: How does ocean circulation affect the global distribution of crustaceans?

  14. Now You Try! • What level would a biologist be studying if he/she were: • Counting the number of offspring born to a pride of lions? • Observing how a drought affects the number of blossoms on a Saguaro cactus? • Determining the effects of warming ocean temperatures on krill populations in the Antarctic? • Observing the behavior of Arctic wolves as they hunt migrating caribou in the Arctic?

  15. What would an example be of the following? • Individual organism • Population of that organism • Community of that organism • Ecosystem of that organism • What biotic (living) factors and abiotic (nonliving) factors would influence where and how that organism lives? • What are the limiting factors in that ecosystem?

  16. Biotic Factors in an Ecosystem • Biotic Factors in an ecosystem include those related to the activities of living things. Ex: • Food availability • Diseases & parasites • Density of the population • Human influence

  17. Abiotic Factors in an Ecosystem • Nonliving factors tha affect population size are abiotic factors. • Weather & Climate • Availability of Sunlight • Availability of Water • pH of water/soil • Wind • Rocks/soil/mountains

  18. Does feeding by sea urchins limit seaweed distribution? • W.J. Fletcher, of the University of Sydney, Australia, reasoned that if sea urchins are a limiting biotic factor, then more seaweeds should invade an area from which sea urchins have been removed. • To isolate the effect of sea urchins from that of another seaweed-eating animal, the limpet, he removed only urchins, only limpets, or both from study areas adjacent to a control site.

  19. Seaweed Cover 100% 80% 60% 40% 20% 0% Both limpets and urchins removed Only urchins removed Only limpets removed Control-neither species removed Time-August 1983-February 1984

  20. Conclusion • Removing both limpets and urchins resulted in the greatest increase in seaweed cover, indicating that both species have some influence on seaweed distribution. • But, since removing only urchins greatly increased seaweed growth while removing only limpets had little effect, Fletcher concluded that sea urchins have a much greater effect than limpets on limiting seaweed distribution.

More Related