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Tracing Phylogeny

Tracing Phylogeny. Phylogeny. Phylon = tribe, geny = genesis or origin The evolutionary history of a species or a group of related species. Phylogeny. Found in fossils and the fossil record. Fossils. Any preserved remnant or impression of a past organism. Types of Fossils.

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Tracing Phylogeny

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  1. Tracing Phylogeny

  2. Phylogeny • Phylon = tribe, geny = genesis or origin • The evolutionary history of a species or a group of related species.

  3. Phylogeny • Found in fossils and the fossil record.

  4. Fossils • Any preserved remnant or impression of a past organism.

  5. Types of Fossils 1. Mineralized 2. Organic Matter 3. Trace 4. Amber

  6. Mineralized Fossils • Found in sedimentary rock. • Minerals replace cell contents. • Ex: bone, teeth, shells

  7. Organic Matter Fossils • Retain the original organic matter. • Ex: plant leaves trapped in shale. • Comment – can sometimes extract DNA from these fossils.

  8. Trace Fossils • Footprints and other impressions. No organic matter present.

  9. Amber • Fossil tree resin. • Preserve whole specimen. • Usually small insects etc.

  10. Fossils - Limitations • Rare event. • Hard to find . • Fragmentary. • Dating.

  11. Fossil Dating Methods 1. Relative - by a fossil's position in the strata relative to index fossils. 2. Absolute - approximate age on a scale of absolute time.

  12. Absolute - Methods 1. Radioactive 2. Isomer Ratios

  13. Radioactive • Estimated from half-life products in the fossil. • Ex: Carbon - 14 Potassium - 40

  14. What do fossils tell us? • That the geographical distribution of organisms has changed over time. • Reason? – The land formations of the earth have changed.

  15. Continental Drift • The movement of the earth's crustal plates over time. • Drift is correlated with events of mass extinctions and adaptive radiations of life.

  16. Pangaea • 250 million years ago. • One super continent. • Many life forms brought into contact with each other.

  17. Mesozoic era • Pangaea began to break up. • 180 million years ago.

  18. Result • Geographical Isolation. • New environments formed. • Old environments lost. • As the environments changed, so did Life.

  19. Example • Australian fauna and flora are unique. • Separated early and remained isolated for 50 million years.

  20. Mass Extinctions • The sudden loss of many species in geologic time. • May be caused by asteroid hits or other disasters.

  21. Examples • Permian Extinction • Cretaceous Extinction

  22. Permian Extinction • 250 million years ago. • 90% of species lost.

  23. Cretaceous Extinction • 65 million years ago. • Loss of the dinosaurs. • Good evidence that this event was caused by an asteroid that hit in the Yucatan, causing a “nuclear winter”.

  24. The crater

  25. Result of Mass Extinctions • Areas are open for the surviving species to exploit. • Rapid period of speciation (adaptive radiation). • Many new species are formed in a very short period of time.

  26. Convergent Evolution • When unrelated species have similar adaptations to a common environment. • Ex: Sharks and dolphins

  27. Only one is a cactus

  28. Need • Methods to group organisms by similarities and phylogenies.

  29. DNA Comparisons • A direct measure of common inheritance. • The more DNA in common, the more closely related.

  30. DNA Comparison Methods 1. DNA-DNA Hybridization 2. Restriction Mapping 3. DNA Sequencing All three methods have been used, but DNA Sequencing is becoming the most common.

  31. Protein Comparisons • Examines the Amino Acid sequence of homologous proteins. • Ex: Cytochrome C Study

  32. Schools of Taxonomy 1. Phenetics 2. Cladistics

  33. Phenetics • Makes no phylogenetic assumptions. • Taxonomic affinities based on measurable similarities. • Ex: Numerical Taxonomy

  34. Cladistics • Branch points defined by novel characteristics. • Branch pattern may not reflect evolutionary history.

  35. Cladistics

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