2. Classification Go to Section:

3. In the following few slides, you will find 14 different organisms, each of them labeled with a letter. In your groups, write down two main classification (example red/green). Then place the corresponding letters under the correct classification. The Classification Game!! Divide into groups of 3 or 4

5. One Possible Solution Plants Animals ????

6. Did You Have Problems?? There were actually several different ways to go about classifying these 14 organisms. You might have done color, shape, size, number of legs… the possibilities are endless. You might have encountered one or two that really did not fit into either of your two classifications, what should you do when this happens? Make a new classification of course! And this is what scientist have done as well through the years.

7. The Challenge Biologists have identified and named approximately 1.5 million species so far. They estimate that between 2 and 100 million species have yet to be identified.

8. 1. Why Classify? –To study the diversity of life –To organize and name organisms Ex: supermarket 2. Why give scientific names? –Common names are misleading Finding Order in Diversity Go to Section: jellyfishsilverfishstar fish None of these animals are fish!

9. Some organisms have several common names Go to Section: This cat is commonly known as: Florida panther Mountain lion Puma Cougar Scientific name: Felis concolor Scientific name means “coat of one color” Why Scientists Assign Scientific Names to Organisms

10. Origin of Scientific Names By the 18 th century, scientists realized that naming organisms with common names was confusing. Scientists during this time agreed to use a single name for each species. They used Latin and Greek languages for scientific names.

11. Slide # 6 Linnaeus: The Father of Modern Taxonomy Go to Section: Carolus Linnaeus 1732: Carolus Linnaeus developed system of classification – binomial nomenclature a.Two name naming system b.Gave organisms 2 names Genus (noun) and species (adjective) Rules for naming organisms 1. Written is Latin (unchanging) 2. Genus capitalized, species lowercase 3. Both names are italicized or underlined EX: Homo sapiens: wise / thinking man

12. Kingdom Phylum Class Order Family Genus Species Go to Section: Linnaeus’s System of Hierarchy Least specific Most specific 1.Which of the following contains all of the others? a.Familyc. Class b.Species d. Order 2.Based on their names, you know that the baboons Papio annubis and Papio cynocephalus do not belong to the same: a.Familyc. Order b.Genusd. Species

13. Binomial Nomenclature Example For example, the polar bear is named Ursus maritimus. The genus, Ursus, describes a group of closely related bear species. In this example, the species, maritimus, describes where the polar bear lives—on pack ice floating on the sea.

14. Each KINGDOM is further classified into more specific groups, much like addresses are organized into smaller categories. KingdomCountry PhylumState ClassCounty OrderTown FamilyNeighborhood GenusStreet SpeciesHouse Number

15. SPECIES

16. Modern Classification Linnaeus grouped species into larger taxa, such as genus and family, based on visible similarities. Darwin ’ s ideas about descent with modification evolved into the study of phylogeny, or evolutionary relationships among organisms.

17. Modern Classification Modern biologists group organisms into categories representing lines of evolutionary descent. Species within a genus are more closely related to each other than to species in another genus. Genus: FelisGenus: Canis

18. Similarities in DNA and RNA Scientists use similarities and differences in DNA to determine classification and evolutionary relationships. They can sequence or “ read ” the information coded in DNA to compare organisms.

19. Kingdoms and Domains In the 18 th century, Linnaeus originally proposed two kingdoms: Animalia and Plantae. By the 1950s, scientists expanded the kingdom system to include five kingdoms.

20. The Five Kingdom System

21. The Six Kingdom System In recent years, biologists have recognized that the Monera are composed of two distinct groups. As a result, the kingdom Monera has now been separated into two kingdoms: Eubacteria and Archaebacteria, resulting in a six- kingdom system of classification.

22. The Three-Domain System Scientists can group modern organisms by comparing ribosomal RNA to determine how long they have been evolving independently. This type of molecular analysis has resulted in a new taxonomic category—the domain.

23. The Three Domains The three domains, which are larger than the kingdoms, are the following: Eukarya – protists, fungi, plants and animals Bacteria – which corresponds to the kingdom Eubacteria. Archaea – which corresponds to the kingdom Archaebacteria.

24. Classification of Living Things The three-domain system BacteriaArchaeaEukarya Eubacteria Archae- bacteria ProtistaPlantaeAnimalia The six-kingdom system Fungi

25. Grizzly bearBlack bearGiant panda Red fox Abert squirrel Coral snake Sea star KINGDOM Animalia PHYLUM Chordata CLASS Mammalia ORDER Carnivora FAMILY Ursidae GENUS Ursus SPECIES Ursus arctos Hierarchical Ordering of Classification Go to Section: As we move from the kingdom level to the species level, more and more members are removed. Each level is more specific.

26. Cladogram An evolutionary tree that suggests how species may be related Over evolutionary time, certain traits in a group of species, or clade, stay the same. Other traits change.

27. Derived Characters Derived characters are traits that are shared by some species but not by others The more closely related species are, the more derived characters they will share Derived characters are shown as hash marks

28. Nodes Each place where a branch splits is called a node. Nodes represent the most recent common ancestor shared by a clade.

29. What do the house cat and the turtle have in common? What does the leopard have in common with the wolf? What organisms are most closely related?

31. 1.a. Wings covered by a hard covering (exoskeleton)…….go to 2 b. Wings not covered by exoskeleton…….go to 3 2.a. Body is round shape…… b. Body is elongated…… Lady bug Grasshopper 3. a. Wings point toward the back……… b. Wings point toward the sides….. Go to 4 Housefly 4.a. Wings are large and broad……. b. Wings are long and thin…... Butterfly Dragonfly A tool used to determine the identity of an organism

32. EXAMPLE OF A DICHOTOMOUS KEY MONEY TAXONOMIC KEY 1 A. Metal....................................................go to 2 1 B. Paper....................................................go to 5 2 A. Brown (copper)........................................penny 2 B. Silver....................................................go to 3 3 A. Smooth edge...........................................nickel. 3 B. Ridges around the edge...............................go to 4 4 A. Torch on back..........................................dime 4 B. Eagle on back...........................................quarter

33. 1. a. Needle leavesgo to 2 b. Non-needle leavesgo to 3 2. a. Needles are clusteredPine b. Needles are in singletsSpruce 3. a. Simple leaves (single leaf)go to 4 b. Compound leaves (made of “leaflets”)go to 7 4. a. Smooth edgedgo to 5 b. Jagged edgego to 6 5. a. Leaf edge is smoothMagnolia b. Leaf edge is lobedWhite Oak 6. a. Leaf edge is small and tooth-likeElm b. Leaf edge is large and thorny Holly 7. a. Leaflets are attached at one single pointChestnut b. Leaflets are attached at multiple pointsWalnut _____________

34. Kingdom Archaebacteria Go to Section: Cell TypeProkaryote Number of CellsUnicellular NutritionAutotroph or Heterotroph LocationExtreme Environments Volcanoes, Deep Sea Vents, Yellowstone Hot Springs ExamplesMethanogens Thermophiles

35. Kingdom Eubacteria Go to Section: E. coli Streptococcus Cell TypeProkaryote Number of CellsUnicellular NutritionAutotroph or Heterotroph ExamplesStreptococcus, Escherichia coli (E. coli)

36. Kingdom Protista Go to Section: Paramecium Green algae Amoeba Cell TypeEukaryote Number of CellsMost Unicellular, some multicellular NutritionAutotroph or Heterotroph ExamplesAmoeba, Paramecium, Euglena, The “Junk-Drawer” Kingdom

37. Kingdom Fungi Go to Section: Mildew on Leaf Mushroom Cell TypeEukaryote Number of CellsMost multicelluar, some unicelluar NutritionHeterotroph ExampleMushroom, yeast, mildew, mold Most Fungi are DECOMPOSERS

38. Kingdom Plantae Go to Section: Ferns : seedless vascular Sunflowers: seeds in flowers Douglas fir: seeds in cones Mosses growing on trees Cell TypeEukaryote Number of CellsMulticellular NutritionAutotroph ExamplesMosses, ferns, conifers, flowering plants

39. Kingdom Animalia Go to Section: Sage grouse Poison dart frog Bumble bee Sponge Jellyfish Hydra Cell TypeEukaryote Number of CellsMulticellular NutritionHeterotroph ExamplesSponges, worms, insects, fish, mammals