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Topic 4 Conservation and Biodiversity 4.1 Biodiversity in Ecosystems

Summary of Topic 4.1 - biodiversity in ecosystems

Nov 28, 2014



IB Environmental Systems and Societies
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  • 1. Topic 4 Conservation and Biodiversity 4.1 Biodiversity in Ecosystems
  • 2. Biodiversity Coined by Edward Wilson in the 1980s It is the number and relative abundance of species in a defined area It can be measured in terms of: 1. Species diversity 2. Habitat diversity 3. Genetic diversity
  • 3. 1. Species Diversity The variety of species per unit area This is the number of species present and their relative abundance Areas of high species diversity are usually those undisturbed by humans
  • 4. 2. Habitat Diversity The range of different habitats in an ecosystem Rainforest has a high habitat diversity Desert has a low habitat diversity
  • 5. 3. Genetic Diversity The range of genetic material present in a gene pool or population of a species
  • 6. Plate Tectonics First suggested by geologist Alfred Wegener in 1912 It refers to the movement of parts of the Earths crust This led to populations of the same species becoming isolated (over millions of years) Reproductive isolation under different conditions provided a mechanism for speciation (in this case allopatric) It explains why there are related species in different parts of the world
  • 7. 300 200 million years ago Pangea
  • 8. 200 180 million years ago Lauraisia Gondwanaland
  • 9. How does plate movement influence speciation? May produce barriers Mountain ranges Rift valleys Oceans Movement of land masses apart can isolate species Land bridges may form and allow new waves of colonisation Movement of plates through new climatic zones creates new habitats Subduction of plates sometimes destroys existing habitats
  • 10. Evolution Charles Darwin (1809-1882)
  • 11. Evolution Evolution is the slow, continual change of organisms over a very long time. All living things on the Earth have developed from the first simple life forms that arrived 3,000,000,000 years ago. One of the effects of evolution is that species will become better adapted to their environment. If these species dont adapt they may become extinct due to being unable to deal with any of these factors 1) Increased competition 2) Changes in the environment 3) New diseases 4) New predators
  • 12. Evolution My key observations: 1) All living things produce more offspring than survive to adulthood 2) In spite of this, population sizes remain roughly constant 3) Variation exists among species 4) Characteristics can be passed on from one generation to the next. These observations led me to the conclusion that species evolve over a along period of time by a mechanism called Natural Selection. The main evidence for this is from fossil records.
  • 13. Evolution Mutations are changes in the structure of the DNA molecule. They can be passed on to daughter cells through cell division. They will result in the wrong proteins being produced. Mutations can be caused by: - Ionising radiation (UV, X-rays etc.) - Radioactive substances - Certain chemicals Effects: - Mostly harmful - Causes death or abnormality in reproductive cells - Causes cancer in body cells - Some CAN be neutral or even beneficial (e.g. the peppered moth)
  • 14. Natural Selection 1) Each species shows variation: 2) There is competition within each species for food, living space, water, mates etc. 4) These survivors will pass on their better genes to their offspring who will also show this beneficial variation. Yum 3) The better adapted members of these species are more likely to survive Survival of the Fittest Get off my land Gutted!
  • 15. A smaller example Consider the four steps of natural selection in the example of some bacteria that have become resistant to penicillin (an antibiotic): 1) Variation some strains of bacteria are resistant and some arent. 2) Competition The non-resistant bacteria are killed by the penicillin. 3) Survival of the fittest the resistant bacteria survive. 4) Passing on of genes the resistant bacteria reproduce and pass on their adaptations to their offspring. Bacteria Penicillin
  • 16. Evolution is usually divergent (sometimes refered to as adaptive radiation). However, occasionally unrelated species develop similar characteristics due to similar selection pressures. We call this convergent evolution.
  • 17. Examples of Convergent Evolution
  • 18. Divergent Evolution Also called adaptive radiation
  • 19. Ecosystem Stability and Disturbance After a disturbance, new habitat is recolonised: By swimming or floating By flying (birds, insects, seeds) By walking or hitch-hiking on other animals
  • 20. Ecosystem Stability and Disturbance Jump Dispersal Long distances travelled by one or few individuals over a very short timescale Diffusion Slow spread of a population from the edge of a disturbance into new habitat Secular migration Very slow spread (over thousands or millions of years) that may involve species undergoing speciation as they move
  • 21. Disturbance 3 factors determine how quickly an ecosystem can recover from a disturbance: Inertia resistance to alteration Resiliance ability to recover Diversity number and proportions of species
  • 22. Disturbance Tropical rainforest High diversity High inertia Low resiliance (takes a long time to recover) Grassland Low diversity Low inertia High resiliance Complex ecosystem therefore has many ways to respond to disturbances. However, soils thin and low in nutrients, and eaily washed away after disturbance Fairly simple ecosystem. Thick soils with lots of nutrients stored in them. Recover fairly quickly after disturbance
  • 23. Succession 1. Pioneer Species colonise bare rock 2. Growth of these species cause changes in the environment, soil is created 3. New species colonise soil and replace pioneers 4. Growth of root systems stabalise soil 5. Animals begin to colonise 6. A climax community is created 7. New disturbances result in new waves of succession Primary Succession Secondary Succession Note that it is communities that succeed each other, not simply individual species Each new community is called a sere. The final stable sere is called the climax community
  • 24. Questions 1. Define species diversity, genetic diversity and habitat diversity 2. Describe natural selection and artificial selection 3. List 3 different causes of reproductive isolation 4. Describe allopatric speciation and sympatric speciation? 5. Outline the movement of tectonic plates and how it has contributed to species distribution
  • 25. Questions 1. Give one example of how an ecosystems ability to recover from a disturbance depends on resiliance, diversity and inertia 2. In what ways does the complexity of an ecosystem provide stability? 3. Outline the difference between primary and secondary succession