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1 Classification Chapter 17. 2 Almost 2 million species of organisms have been described Almost 2 million species of organisms have been described Thousands.

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Presentation on theme: "1 Classification Chapter 17. 2 Almost 2 million species of organisms have been described Almost 2 million species of organisms have been described Thousands."— Presentation transcript:

1 1 Classification Chapter 17

2 2 Almost 2 million species of organisms have been described Almost 2 million species of organisms have been described Thousands more are discovered each year Thousands more are discovered each year The total number of species ranges from 5 to 30 million The total number of species ranges from 5 to 30 million - Biodiversity- the variety of organisms 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 for all countries (Latin or some Greek) for all names Uses same language for all countries (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 & analagous structures He subdivided them by their habitat & analagous structures Ex) land, sea, or air dwellers

8 8 Carolus Linnaeus 1707 – 1778 18th century taxonomist Classified organisms by their form and structure (morphology & homologous structures) Developed 7 levels of classification Developed naming system still used today

9 9 Carolus Linnaeus Called the “Father of Taxonomy” Called the “Father of Taxonomy” Developed the modern system of naming known as binomial nomenclature- two- word naming system (scientific name) Developed the modern system of naming known as binomial nomenclature- two- word naming system (scientific name)

10 10 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 Binomial nomenclature uses:

11 11 Binomial Nomenclature

12 12 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 Kingdom, Phylum, Class, Order, Family, Genus, species Kingdom, Phylum, Class, Order, Family, Genus, species

13 13 Hierarchy-Taxonomic Groups Domain Kingdom Phylum Class Order Family Genus Species BROADEST TAXON

14 14 King Phillip Came Over For Good Spaghetti!

15 15 video

16 16 Two Modern Systems Six Kingdom System Three Domain System

17 17 The Six Kingdoms:

18 18 The prefix archae - comes from the Greek word "ANCIENT" Unicellular & Prokaryotic autotrophic & heterotrophic by chemosynthesis Live in extreme environments Sewage treatment plants, thermal vents, etc. KingdomArchaebacteria

19 19 Kingdom Eubacteria Cause human diseases, are present in almost all habitats on earth “true bacteria” Unicellular & prokaryotic Heterotopic & autotropic by chemosynthesis or photosynthesis Many are environmentally and commercially.Many are important environmentally and commercially. E. Coli –Live in the intestines of animals

20 20 Kingdom Protista  “The odds and ends kingdom”  Dumping ground of organisms that don’t fit into the other kingdoms  Eukaryotic  Unicellular or Multicellular  Autotroph or heterpotroph Ex) Algae, Slime molds, Diatoms, and Protozoa

21 21 Kingdom 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) Decomposers Decomposers Ex) yeast, mold, mildew, & mushrooms Ex) yeast, mold, mildew, & mushrooms

22 22 Kingdom 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

23 23 Kingdom Animalia Kingdom 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

24 24

25 25 Broadest, most inclusive taxon Came from phylogenetic analysis of rRNA genes Three domains: 1.Eubacteria: unicellular prokaryotes 2.Archaea: unicellular prokaryotes with distinctive cell membranes and other unique genetic properties 3.Eukarya are more complex and have a nucleus and membrane-bound organelles Domains

26 26 Domain Eukarya Domain Eukarya includes: Protista (protozoans, algae…) Protista (protozoans, algae…) Fungi (mushrooms, yeasts …) Fungi (mushrooms, yeasts …) Plantae (multicellular plants) Plantae (multicellular plants) Animalia (multicellular animals) Animalia (multicellular animals)

27 27

28 28 Notebook Quiz 1. List the levels of classification from most broad to most specific. 2. What type of organisms are found in the kingdom Archaebacteria? Are they unicellular or multicellular? 3. What 4 kingdoms are in the Domain Eukarya? 4. What is the difference between an autotroph and a heterotroph? Give an example of each. 5. Describe the proper way to write an organisms scientific name.

29 29 evolutionary relationships: Classification is based on evolutionary relationships: Homologous structures (same structure, different function) Homologous structures (same structure, different function) Similar embryo development Similar embryo development Similarity in DNA, RNA, or amino acid sequence of Proteins Similarity in DNA, RNA, or amino acid sequence of Proteins

30 30 Homologous Structures show Similarities in mammals.

31 31 Similarities in Vertebrate Embryos

32 32 Phylogenetics- the analysis of the evolutionary or ancestral relationships among a taxon (group). Phylogenetic diagram (tree)- a branching tree that indicates how closely related species are.

33 33

34 34

35 35 Cladogram Diagram showing how organisms are related based on shared, derived characteristics such as feathers, hair, or scales

36 36 Primate Cladogram

37 37

38 Let’s Create A Cladogram from the following: Derived Characters segmentedjawshairplacentamulticellularlimbs kangaroo+++-++ earthworm+---+- amoeba------ lizard++--++ cat++++++ sponge----+- salmon++--+- 38

39 39 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

40 40 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


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