1. 1 Classification

2. 2 There are 13 billion known species of organisms There are 13 billion known species of organisms This is only 5% of all organisms that ever lived!!!!! This is only 5% of all organisms that ever lived!!!!! New organisms are still being found and identified New organisms are still being found and identified Species of Organisms

3. 3 What is Classification? Classification is the arrangement of organisms into orderly groups based on their similarities Classification is also known as taxonomy Taxonomists are scientists that identify & name organisms

4. 4 Benefits of Classifying Accurately & uniformly names organisms Accurately & uniformly names organisms Prevents misnomers such as starfish & jellyfish that aren't really fish Prevents misnomers such as starfish & jellyfish that aren't really fish Uses same language (Latin or some Greek) for all names Uses same language (Latin or some Greek) for all names Sea”horse”??

5. 5 Confusion in Using Different Languages for Names

6. 6 Latin Names are Understood by all Taxonomists

7. 7 Early Taxonomists 2000 years ago, Aristotle was the first taxonomist 2000 years ago, Aristotle was the first taxonomist Aristotle divided organisms into plants & animals Aristotle divided organisms into plants & animals He subdivided them by their habitat ---land, sea, or air dwellers He subdivided them by their habitat ---land, sea, or air dwellers

8. 8 Early Taxonomists John Ray, a botanist, was the first to use Latin for naming John Ray, a botanist, was the first to use Latin for naming His names were very long descriptions telling everything about the plant His names were very long descriptions telling everything about the plant

9. 9 Carolus Linnaeus 1707 – 1778 18th century taxonomist Classified organisms by their structure Developed naming system still used today

10. 10 Carolus Linnaeus Called the “Father of Taxonomy” Called the “Father of Taxonomy” Developed the modern system of naming known as binomial nomenclature Developed the modern system of naming known as binomial nomenclature Two-word name (Genus & species) Two-word name (Genus & species)

11. 11 Standardized Naming Binomial nomenclature used Binomial nomenclature used Genus species Genus species Latin or Greek Latin or Greek Italicized in print Italicized in print Capitalize genus, but NOT species Capitalize genus, but NOT species Underline when writing Underline when writing Turdus migratorius American Robin

12. 12 Binomial Nomenclature Which TWO are more closely related?

13. 13 Rules for Naming Organisms The International Code for Binomial Nomenclature contains the rules for naming organisms The International Code for Binomial Nomenclature contains the rules for naming organisms All names must be approved by International Naming Congresses (International Zoological Congress) All names must be approved by International Naming Congresses (International Zoological Congress) This prevents duplicated names This prevents duplicated names

14. 14 Classification Groups Taxon ( taxa-plural) is a category into which related organisms are placed Taxon ( taxa-plural) is a category into which related organisms are placed There is a hierarchy of groups (taxa) from broadest to most specific There is a hierarchy of groups (taxa) from broadest to most specific Domain, Kingdom, Phylum, Class, Order, Family, Genus, species Domain, Kingdom, Phylum, Class, Order, Family, Genus, species

15. 15 Hierarchy-Taxonomic Groups Domain Kingdom Phylum (Division – used for plants) Class Order Family Genus Species BROADEST TAXON Most Specific

16. 16 Dumb King Phillip Came Over For Gooseberry Soup!

17. 17 Broadest, most inclusive taxon Broadest, most inclusive taxon Three domains Three domains Archaea and Bacteria are unicellular prokaryotes (no nucleus or membrane-bound organelles) Archaea and Bacteria are unicellular prokaryotes (no nucleus or membrane-bound organelles) Eukarya are more complex and have a nucleus and membrane- bound organelles Eukarya are more complex and have a nucleus and membrane- bound organelles Domains

18. 18 ARCHAEA Kingdom - ARCHAEBACTERIA Probably the 1 st cells to evolve Live in HARSH environments Found in: – Sewage Treatment Plants (Methanogens) – Thermal or Volcanic Vents (Thermophiles) – Hot Springs or Geysers that are acid – Very salty water (Dead Sea; Great Salt Lake) - Halophiles

19. 19 ARCHAEAN

20. 20 BACTERIA Kingdom - EUBACTERIA Some may cause DISEASE Found in ALL HABITATS except harsh ones Important decomposers for environment Commercially important in making cottage cheese, yogurt, buttermilk, etc.

21. 21 Live in the intestines of animals

22. 22 Domain Eukarya is Divided into Kingdoms Protista (protozoans, algae…) Protista (protozoans, algae…) Fungi (mushrooms, yeasts …) Fungi (mushrooms, yeasts …) Plantae (multicellular plants) Plantae (multicellular plants) Animalia (multicellular animals) Animalia (multicellular animals)

23. 23 Protista Most are unicellular Most are unicellular Some are multicellular Some are multicellular Some are autotrophic, while others are heterotrophic Some are autotrophic, while others are heterotrophic Aquatic Aquatic Ex: Amoebas, paramecium, Euglena and Diatoms Ex: Amoebas, paramecium, Euglena and Diatoms

24. 24 Fungi Multicellular, except yeast Multicellular, except yeast Absorptive heterotrophs (digest food outside their body & then absorb it) Absorptive heterotrophs (digest food outside their body & then absorb it) Cell walls made of chitin Cell walls made of chitin Ex: mushrooms, yeast, black bread mold. Ex: mushrooms, yeast, black bread mold.

25. 25 Plantae Multicellular Multicellular Autotrophic Autotrophic Absorb sunlight to make glucose – Photosynthesis Absorb sunlight to make glucose – Photosynthesis Cell walls made of cellulose Cell walls made of cellulose

26. 26 Animalia Multicellular Multicellular Ingestive heterotrophs (consume food & digest it inside their bodies) Ingestive heterotrophs (consume food & digest it inside their bodies) Feed on plants or animals Feed on plants or animals Ex; Reptiles, Amphibians, Aves, Mammals, Fish Ex; Reptiles, Amphibians, Aves, Mammals, Fish

27. Characteristics of Animals 27 Fish There is a great deal of diversity among the animals we call fish, but they all share certain things in common. All fish: -live in water -have fins -breathe through gills. Amphibians Amphibians include the frogs, toads and salamanders. Amphibians: -have smooth or bumpy skin -are dependent on water for reproduction -can breathe with lungs or gills depending on the species, but all -an breathe through their skin. Reptiles Reptiles include lizards, snakes, turtles and crocodilians (alligators, crocodiles and a couple others). They are characterized by: -having tough, dry, scaly skin -breathing with lungs -having eggs with a leathery eggshell that does not have to be laid -in water to survive (though some reptiles do not lay eggs and instead have -live births) -being ectothermic (cold-blooded). Birds Birds have some fairly obvious common characteristics: -feathers -beaks -wings as well as some not so obvious characteristics, such as: -remarkably lightweight bones -being endothermic (warm-blooded). Mammals Mammals are the group of vertebrates that includes humans, river otters and dolphins. The characteristics of mammals are they: -are endothermic (warm-blooded) -have hair -breathe air with lungs -give live births -produce milk

28. 28

29. 29 Taxons Most genera contain a number of similar species Most genera contain a number of similar species The genus Homo is an exception (only contains modern humans) The genus Homo is an exception (only contains modern humans) evolutionary relationships Classification is based on evolutionary relationships

30. 30

31. 31 Basis for Modern Taxonomy Homologous structures (same structure, different function) Homologous structures (same structure, different function) Similar embryo development Similar embryo development Molecular Similarity in DNA, RNA, or amino acid sequence of Proteins Molecular Similarity in DNA, RNA, or amino acid sequence of Proteins

32. 32 Homologous Structures (BONES in the FORELIMBS) shows Similarities in mammals.

33. 33 Similarities in Vertebrate Embryos

34. 34 Cladogram Diagram showing how organisms are related based on shared, derived characteristics such as feathers, hair, or scales

35. 35 Primate Cladogram

36. How are cladograms constructed? Organisms are grouped together based on their shared derived characteristics (trait modified from the ancestral trait).

37. Cladogram construction Given a table of derived characters (traits), create a cladogram

38. Step 1 – Create a Venn Diagram How many organisms are you comparing? This number will equal the number of circles in your Venn diagram. Now count the number of characters each organism has. This will be the order that you place the organisms in the Venn Diagram.

39. Venn Diagram Vertebrae: Shark, bullfrog, kangaroo & humans Two pairs of limbs: Bullfrog, kangaroo & Human Mammary glands: Kangaroo & Human Placenta:Human

40. Step Two – Convert the Venn Diagram into a Cladogram Vertebrae Shark Two pairs of limbs Bullfrog Mammary Glands Kangaroo Placenta Human

41. Convert the Venn Diagram into a Cladogram Earthworm Trout Lizard Human Vertebrae Legs Hair

42. Independent Practice Problems:

44. 44 Dichotomous Keying Used to identify organisms Used to identify organisms Characteristics given in pairs Characteristics given in pairs Read both characteristics and either go to another set of characteristics OR identify the organism Read both characteristics and either go to another set of characteristics OR identify the organism

45. 45 Example of Dichotomous Key 1a Tentacles present – Go to 2 1b Tentacles absent – Go to 3 2a Eight Tentacles – Octopus 2b More than 8 tentacles – 3 3a Tentacles hang down – go to 4 3b Tentacles upright–Sea Anemone 4a Balloon-shaped body–Jellyfish 4b Body NOT balloon-shaped - 5