1. Convergent, divergent, parallel and co-evolution

2. Divergent Evolution When closely related species become less like each other over time due to different environmental conditions or selective pressures When several species diverge from one common ancestor this is called adaptive radiation

3. Divergent Evolution Fruit Bat - Victoria Blossom bat - Queensland Eastern Horseshoe Bat - NSW Right, large-eared variety

4. Adaptive Radiation

5. Convergent Evolution When species that are not closely related have adapted similar features due to similar selective pressures Also known as adaptive convergence

6. Left: A and B, a marsupial flying phalanger and a placental flying squirrel; C and D, marsupial and placental jerboas; E and F, marsupial and placental moles. Below: The marsupial Tasmanian wolf (left) and the familiar placental wolf (right), with the corresponding skulls.

7. Parallel Evolution When closely related species develop similarities due to similar selective pressures that they are exposed to

8. Co-evolution When two different species have a close relationship evolve in a way that enhances their relationship

9. What type of evolution do these diagrams show?

10. Speciation Evolution by natural selection leads to gradual changes Over time, the species may change so much that a new species forms This is called speciation Two types: Phyletic evolution Branching evolution When speciation occurs due to geographical separation, this is called allopatric speciation

11. Speciation Phyletic Evolution: When one population of a species changes so much that it is no longer able to breed with other members of the species and produce viable offspring Branching evolution: When a population of a species splits into two or more groups with one of the groups evolving separately from the others and forming a new species

12. Phyletic vs. Branching

13. Punctuated Equilibrium Darwin proposed that evolution was a very slow and gradual process In 1974 – a ‘punctuated equilibrium’ model was proposed Species can remain unchanged for long periods of time and the evolution of a species can occur rapidly due to sudden changes Evidence in fossil record

14. Extinction If a species is unable to change or evolve through natural selection it may be unable to survive some selective pressures If all of the reproductive individuals of a species die, the species is lost and said to be extinct

15. Comparative Genomics Can be used to compare the entire genome of organisms to determine how closely related they are Helps to determine whether similar species share an evolutionary history