Unit 2 – Ecosystems and Population Change

1. Unit 2 – Ecosystems and Population Change 3.1 – Individuals, Populations, and Communities in Ecosystems Mr. Standring

2. Learning Objectives • What is an ecosystem? • What are populations and communities? • How do these fit into ecosystems? Mr. Standring

3. The Parts of an Ecosystem • An ecosystem is made up of many parts. • Ecosystems can take up many hectares of land or can be small, such as a tide pool or a rotting log. • Abioticfactors include air, water, soil, nutrients, and light. • Biotic factors include plants, animals, and micro-organisms. • A habitat is where an organism lives. The habitat of the red fox often includes the edges of forests or marshlands. (c) McGraw Hill Ryerson 2007

4. Ecotones • Ecotones • A transition area between ecosystems Mr. Standring

5. Abiotic Interactions in Ecosystems • The abiotic components are what allow the biotic components to survive in an ecosystem. • Abiotic factors include: oxygen, water, nutrients light and soil. Mr. Standring See pages 37 - 38

6. Abiotic factors: Oxygen • Oxygen is produced by the green plants and certain micro-organisms and is used by animals and most other micro-organisms. Mr. Standring

7. Abiotic factors: Water • Water is necessary for all life. Mr. Standring

8. Abiotic factors: Nutrients • Nutrients often enter the food chain with plants and are very important for growth. Mr. Standring

9. Abiotic factors: Light • Light is required for photosynthesis, which is the process in plants that converts and stores the Sun’s energy in the form of starches and carbohydrates. Mr. Standring

10. Abiotic factors: Soil • Soil not only contains water and nutrients but also is home to many plants and animals. Earthworms in soil Mr. Standring

11. Individual Organisms • How does the environment affect • Behavior? • Physical features (Morphology)? • Helps to explain why some organisms are only present in certain areas Mr. Standring

12. Populations • Species • Organisms that can breed with each other and produce fertile offspring • Population • A group of individuals of the same species living in a specific area at the same time Mr. Standring

13. Communities • Community • All individuals in all of the interacting populations in a given area • Interactions affecting communities: • Competition • Predator/prey relationships • Symbiotic Relationships • Abiotic factors Mr. Standring

14. Symbiotic relationships • Symbiotic relationships are the interactions between members of two different species that live together in a close association. Mr. Standring

15. Commensalism • Commensalism – one species benefits, one is not affected • Example: Clownfish living in a sea anemone Mr. Standring

16. Parasitism • Parasitism – one species benefits, the other is harmed • Example: hookworm living in dogs • A mosquito drinking human blood • A lamprey eel living off a fish Mr. Standring

17. Mutualism • Mutualism – both species benefit • Example: a bee gathering nectar from a flower • Birds eating parasites off a rhino. Mr. Standring

18. Niches and Competition • A niche refers to the role an organism has within an ecosystem, physically, chemically and biologically. • Competition occurs when a resource is needed by two or more individuals. • Competition usually means resources are limited. • This limits the size and health of that individual and perhaps that population. Coyotes compete over habitat or food sources. Mr. Standring

19. Predation • Predation is the relationship between the “eaters” and the “eaten”. • Predators have adaptations to help them catch their prey. • Prey have adaptations to help avoid predators. • Examples of adaptations include spines and shells, camouflage and mimicry. • The numbers of predators and prey influence each other. Mr. Standring

20. Biodiversity in Ecosystems • Biodiversity refers to the variety and number of different individuals and species in an ecosystem. • Healthy ecosystems generally have high biodiversity. • Most biodiversity losses occur from the loss of habitat. Wetlands provide habitats. Mr. Standring

21. The impact of Humans on Ecosystems • Humans often have a negative impact on biodiversity. • Many efforts are now made to lessen this impact in order to maintain biodiversity. • Ecological management programs try to balance human progress with maintaining biodiversity. Mr. Standring

22. Environments Change Over Time • Abiotic factors • Biotic Factors • Populations/Communities • Succession Mr. Standring

23. Primary Succession Mr. Standring

24. Earth’s Biosphere • Biosphere • All of the ecosystems and their interactions • Atmosphere, Lithosphere, Hydrosphere • Each species has its own niche in the biosphere • They live in specific places and are well suited to survive in these areas Mr. Standring

25. The Big Picture Mr. Standring