1 / 48

Organisms and Their Relationships

Organisms and Their Relationships. Limiting Factors. Abiotic factors: Physical Example: Climate, water Biotic Factors: Biological Example: Food abundance, competing/cooperating species, habitat (flora). Abiotic Factors. Biotic Factors. Levels of organization.

olwen
Download Presentation

Organisms and Their Relationships

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. Organisms and Their Relationships

  2. Limiting Factors • Abiotic factors: Physical • Example: Climate, water • Biotic Factors: Biological • Example: Food abundance, competing/cooperating species, habitat (flora)

  3. Abiotic Factors

  4. Biotic Factors

  5. Levels of organization

  6. The lowest level of organization is the individual organism itself. Organism

  7. A population is made up of many individuals within a species in the same location. Population

  8. A biological community is a group of interacting populations that occupy the area. Biological Community

  9. An ecosystem is a biological community and all of the abiotic factors that affect it. Ecosystem

  10. A biome is a large group of ecosystems that share the same climate and have similar types of communities. Biome

  11. A thin layer around Earth Extends several kilometers above the Earth’s surface Extends several kilometers below the ocean’s surface The Biosphere

  12. POPULATION INTERACTIONS • Populations do not exist alone in nature. They are found in the presence of many potential competitors, predators and mutualists. • The presence or absence of another species can have a profound or little impact on the abundance of the other species.

  13. FIVE IMPORTANT INTERACTIONS BETWEEN TWO SPECIES • COMPETITION (-/-) • PREDATION (+/-) • COMMENSALISM (+/0) • MUTUALISM (+/+) • PARASITISM (+/-) The symbols +, - and 0 refer to the effect of one species on another when both are living together.

  14. Population Interactions Influence Abundance • When populations of different species interact, the effects of one on the other may be positive (+), negative (-) or neutral (0). • By comparing populations living alone and together, several types of interactions can be identified.

  15. A habitat is an area where an organism lives. A niche is the role an organism has in its environment. Ecosystem Interactions

  16. When one or more organisms compete for the same resource. Trees in the Rainforest Hawks and Owls Lions, Hyenas, Cheetahs Competition

  17. COMPETITION • Mutual use of a limited resource by populations of two or more species. • Each individual adversely affect another in the quest for food (nutrients), living space, mates, or other common needs. • When individuals harm one another is attempting to gain a resource. • Abundance of both is greater when alone, than when together.

  18. COMPETITION • May be: interspecific, or intraspecific • Due to: exploitation, or interference • Result in: mutual extinction, or exclusion of one, or coexistence

  19. Categories of Competition • When competition is between individuals of: ---- same species (intraspecific) ---- different species (interspecific) • When a resource is in short supply that used by one it is not available to the other (exploitation). • When an action or substance produced by one is directly harmful to the other (interference).

  20. Exploitation and Intraspecific Competition • A seed company advises gardeners to “spread seeds thinly in a furrow, after plants grow then thin to 8 inches apart”. Why? • Plants too far apart or too close together will only produce a few seeds. Why?

  21. Interference and Intraspecific Competition • Territorial behavior has evolved in many species as a response to intraspecific competition. • Male red wing blackbirds stake out a territory in defense of nests and mates.

  22. Interference and Intraspecific Competition • The red grouse males stake out territories that are defended against other males. • The size of a territory determines red grouse density. • This is called territorial behavior.

  23. The relationship between plant eaters (herbivores) and their food. Manatee vs. Lettuce Deer vs. Grass Koala vs. Eucalyptus Herbivory

  24. The relationship between predators and their dinner. Owl vs. Mouse Lion vs. Gazelle Wolves vs. Moose Predation Dinner time!! Oh Dear!

  25. Ectosymbiosis – where one organism lives on another Mistletoe Endosymbiosis- where one organism lives inside another Lactobacilli in humans Symbiotic Relationships

  26. MUTUALISM • Populations interact to the benefit of both. • Mutualism may be obligate (necessary for survival of one or both species) or facultative (advantageous to one or both species). • The basis for agricultural domestication of plants and animals by humans. • Common in nature, but the effect on population dynamics is difficult to demonstrate and often complex.

  27. The relationship between 2 different species where both benefit. Clown fish and Anemones Goby Fish and blind Shrimp Mutualism

  28. MUTUALISM • One of the most commonly observed mutualism is the pollination of flowering plants by an insect or humming bird. • The pollinator benefits from the interaction by receiving nectar. • The plant gets its pollen transferred from one plant to another.

  29. MUTUALISM • The lichen is a mutualistic association between a species of algae and a species of fungus. • The fungus retains water and takes up minerals. • The algae provides carbohydrates and other organic nutrients as the result of photosynthesis.

  30. The relationship between 2 organisms where one benefits and the other is not significantly harmed Spiders building webs on plants Hermit crabs using gastropod shells Commensalism

  31. COMMENSALISM • The cattle egret and cattle or other grazing African ungulate species. • The egret benefits from catching insects that cattle “scare-up” while grazing. • Cattle unaffected.

  32. COMMENSALISM • E. coli (Escherichia coli) is a common bacteria found living in the guts of mammals, including humans, where it gets all it needs to thrive. • In most circumstances, humans are not harmed by its presence and no benefit has been discovered.

  33. COMMENSALISM • Bromeliads are a group of flowering plants that attach to trees (epiphytes). They gain access to sunlight and catch water. • The trees are not harmed or benefited.

  34. The relationship between 2 organisms where one benefits and the other is harmed Tape Worm Liver Fluke Bot Fly Larva Parasitism

  35. Interacting Populations Explore: Wolves & Moose Of Isle Royale

  36. Isle Royale

  37. Isle Royale

  38. Video • Science of Isle Royale: http://www.youtube.com/watch?v=PdwnfPurXcs

  39. Moose probably swam to Isle Royale in 1900

  40. For the next 50 years, the moose population fluctuated with weather conditions and food supply.

  41. Wolves crossed an “ice bridge” onto Isle Royale in the late 1940’s.

  42. The lives of the Isle Royale moose have not been the same since.

  43. The lives of the Isle Royale moose have not been the same since.

  44. The lives of the Isle Royale moose have not been the same since.

  45. The lives of the Isle Royale moose have not been the same since.

  46. The lives of the Isle Royale moose have not been the same since.

  47. The lives of the Isle Royale moose have not been the same since.

More Related