1. Taxonomy The science of naming and classifying organisms

2. Linnaeus developed the scientific naming system still used today Binomial nomenclature is a two-part scientific naming system. uses Latin words scientific names always written in italics or underlined two parts are the genus name and species descriptor

3. Barn owl: Tyto alba White oak: Quercus alba

4. A genus includes one or more physically similar species. –Species in the same genus are thought to be closely related. –Genus name is always capitalized. A species descriptor is the second part of a scientific name. –always lowercase –always follows genus name; never written alone

5. Ursus maritimus Ursus arctos horribilis (horribilis is the subspecies)

7. Scientific names help scientists to communicate. Some species have very similar common names. Some species have many common names.

8. Linnaeus’ classification system has seven levels.

9. How can you remember these levels? Kingdom__________ Phylum__________ Class__________ Order__________ Family__________ Genus__________ Species__________

10. Cladistics is classification based on common ancestry. Phylogeny is the evolutionary history for a group of species. –evidence from living species, fossil record, and molecular data –shown with branching tree diagrams

11. -derived traits are shown with numbers 1-4 - organisms are shown with letters A-D

12. Cladogram

13. 1) Which traits do the Sinornis and Velociraptor share? 2) Which animal has the most traits? 3) Does the Allosaurus have down feathers?

14. Make a cladogram for quarter, dime, nickel, penny

15. Cladistics is a common method to make evolutionary trees –classification based on common ancestry –species placed in order that they descended from common ancestor

16. Molecular clocks use mutations to estimate evolutionary time. Mutations add up at a constant rate in related species. –As more time passes, there will be more mutations. DNA sequence from a hypothetical ancestor The DNA sequences from two descendant species show mutations that have accumulated (black). The mutation rate of this sequence equals one mutation per ten million years. Mutations add up at a fairly constant rate in the DNA of species that evolved from a common ancestor. Ten million years later— one mutation in each lineage Another ten million years later— one more mutation in each lineage

17. Mitochondrial DNA is used to study closely related species. grandparents parents child Nuclear DNA is inherited from both parents, making it more difficult to trace back through generations. Mitochondrial DNA is passed down only from the mother of each generation,so it is not subject to recombination. mitochondrial DNA nuclear DNA –mutation rate ten times faster than nuclear DNA –passed down unshuffled from mother to offspring

18. The current tree of life has three domains.

19. Classification is always a work in progress. The tree of life shows our most current understanding. New discoveries can lead to changes in classification. –Until 1866: only two kingdoms, Animalia and Plantae Animalia Plantae

20. –Until 1866: only two kingdoms, Animalia and Plantae –1866: all single-celled organisms moved to kingdom Protista Animalia Protista Plantae

21. –Until 1866: only two kingdoms, Animalia and Plantae –1938: prokaryotes moved to kingdom Monera –1866: all single-celled organisms moved to kingdom Protista Animalia Protista Plantae Monera

22. –Until 1866: only two kingdoms, Animalia and Plantae –1938: prokaryotes moved to kingdom Monera –1866: all single-celled organisms moved to kingdom Protista Monera –1959: fungi moved to own kingdom Fungi Protista Plantae Animalia

23. –Until 1866: only two kingdoms, Animalia and Plantae –1938: prokaryotes moved to kingdom Monera –1866: all single-celled organisms moved to kingdom Protista –1959: fungi moved to own kingdom –1977: kingdom Monera split into kingdoms Bacteria and Archaea Animalia Protista Fungi Plantae Archea Bacteria

24. The three domains in the tree of life are Bacteria, Archaea, and Eukarya. Domains are above the kingdom level. –proposed by Carl Woese based on rRNA studies of prokaryotes –domain model more clearly shows prokaryotic diversity

25. Domain Bacteria includes prokaryotes in the kingdom Bacteria. –one of largest groups on Earth –classified by shape, need for oxygen, and diseases caused

26. –known for living in extreme environments Domain Archaea includes prokaryotes in the kingdom Archaea. –cell walls chemically different from bacteria –differences discovered by studying RNA

27. Domain Eukarya includes all eukaryotes. –kingdom Protista

28. Domain Eukarya includes all eukaryotes. –kingdom Protista –kingdom Plantae

29. Domain Eukarya includes all eukaryotes. –kingdom Protista –kingdom Plantae –kingdom Fungi

30. Domain Eukarya includes all eukaryotes. –kingdom Protista –kingdom Plantae –kingdom Fungi –kingdom Animalia

31. Bacteria and archaea can be difficult to classify. –transfer genes among themselves outside of reproduction –blurs the line between “species” –more research needed to understand prokaryotes bridge to transfer DNA

32. http://www.peabody.yale.edu/exhibits/tree oflife/films.htmlhttp://www.peabody.yale.edu/exhibits/tree oflife/films.html