2. TAXONOMY The Science of Classifying Organisms

3. When you have a lot of information, it is best to organize and group items so that you can find them easier or easily see their relationship to other items ….this is why we CLASSIFY Even websites must organize their products

4. Scientists also need a way to *NAME* organisms ● The “common names” used by people can sometimes be misleading or confusing ● In order to communicate effectively, biologists need a CONSISTENT naming protocol. *Check out these slides of confusing names…..

5. Photo Credits Sea Lion: Bill Lim Ant Lion: Amphioxus Lion: law_keven Sea Lion? Antlion? Lion?

6. What kind of organism is it? (invertebrate, mammal, insect, fish, reptile..) 1. Sea Monkey 2. Firefly 3. Ringworm 4. Jellyfish 5. Spider monkey 6. Crayfish 7. Sea Horse Photo Credit: Audringje; flickr

7. Consider this……….. ●Are all “Grey Wolves” gray? ●Are all “Black Bears” black? ●Which is more venomous – a water moccasin or a cottonmouth? Grey wolves can be white, black and any shade of gray. Black bears can also be brown or gray A cottonmouth and a water moccasin are the same animal – the names vary by region.

8. Naming and Organizing are part of the same process ● The system was developed by Carolus Linnaeus who used Greek and Latin names for organisms ● He also created a system where we place all organisms into a few *large* groups - KINGDOMS - and then those groups are further divided into smaller groups

9. Grouping ● Kingdom ● Phylum ● Class ● Order ● Family ● Genus ● Species Each group gets smaller and more specific – just think of the way you file things on your computer into folders and subfolders

10. Taxonomic Categories Organizing Life’s Diversity  The taxonomic categories used by scientists are part of a nested-hierarchal system.  Each category is contained within another, and they are arranged from broadest to most specific. 17.1 The History of Classification Chapter 17

12. Humans KingdomAnimalia PhylumChordata ClassMammalia OrderPrimate FamilyHominidae GenusHomo Speciessapiens The scientific name is always the genus + species Humans = Homo sapiens Photo by atomicshark

13. LionTigerPintail Duck KingdomAnimalia PhylumChordata ClassMammalia Aves OrderCarnivora Anseriformes FamilyFelidae Anatidae GenusPanthera Anas SpeciesLeoTigrisacouta What are the scientific names of each of these organisms? How can you remember them?

14. Binomial Nomenclature Organizing Life’s Diversity  Linnaeus’s method of naming organisms, called binomial nomenclature, gives each species a scientific name with two parts.  The first part is the genus name, and the second part is the specific epithet, or specific name, that identifies the species. 17.1 The History of Classification Chapter 17

15.  When writing a scientific name, scientists use these rules: Organizing Life’s Diversity  The first letter of the genus name always is capitalized, but the rest of the genus name and all letters of the specific epithet are lowercase.  If a scientific name is written in a printed book or magazine, it should be italicized.  When a scientific name is written by hand, both parts of the name should be underlined. ● After the scientific name has been written completely, the genus name will be abbreviated ( Ex. F. leo and F. tigris) 17.1 The History of Classification Chapter 17

16. What is a species? Defined as organisms that can interbreed with one another, and produce fertile offspring

17. When two organisms of different species interbreed, the offspring is called a HYBRID Example: ligers (lions and tigers) and pizzlies or mules

18. Check for Understanding 1. Fill in the blanks: Kingdom, _____________, Class, Order, ________________, Genus, _______________ 2. Which two groups are used for an organism's scientific name? 3. Which of the following pairs is MOST closely related? Acer rubrum & Acer saccharum Acer rubrum & Chenopodium rubrum 4. The system we use for naming is called ____________ nomenclature. 5. The science of classification is called ________________

19. TAXONOMY REVISED: Three Domain System Recently, scientists have added a category above Kingdom. This category is called a DOMAIN. There are 3 DOMAINS. They are divided as follows. Domain Eukarya - includes organisms composed of eukaryotic cells (includes the KINGDOMS of plants, animals, fungi, protists) Domain Bacteria - includes all prokaryotic cells that are considered TRUE bacteria, Kingdom Eubacteria Domain Archaea - includes only "ancient" bacteria, Archaebacteria

20. The Kingdoms There are currently 6 kingdoms

21. Classification into a kingdom is based on certain criteria -Number of cells (unicellular or multicellular) -How it obtains energy (heterotroph or autotroph) -Type of cell (eukaryote or prokaryote)

22. Quick Vocabulary Lesson 1. Heterotroph _______________________________ 2. Autotroph ________________________________ 3. Unicellular ________________________________ 4. Multicellular ________________________________ 5. Prokaryote ________________________________ 6. Eukaryote _________________________________

23. Kingdom Animalia ● Multicellular ● Heterotrophic ● Most can move ● Examples: birds, insects, worms, mammals, reptiles, humans, anemones Photo by Eduardo Amorim Photo by Tambako the Jaguar

24. Kingdom Plantae ● Multicellular ● Autotrophic ● Eukaryotic ● No motility (rigid cell walls)

25. Kingdom Fungae ● Multicellular (most) ● Heterotrophic (mainly decomposers) ● Eukaryotic ● No motility Photos by nutmeg66

26. Kingdom Protista (controversial group NOT neat) ● Most are unicellular ● Can be heterotrophic or autotrophic ● Eukaryotes (all have nucleus) ● Examples: Amoeba, Paramecium, Euglena, Most algae ● Most live in water Photo of Ameba by PROYECTO AGUA **/** WATER PROJECT

27. BACTERIA are two kingdoms: Kingdom Eubacteria & Kingdom Archaebacteria ● Unicellular ● Can be autotrophic or heterotrophic ● Prokaryotes (do not have a nucleus) Eubacteria = common bacteria (E. coli, Salmonella) Archaebacteria = “ancient bacteria”, exist in extreme environments( volcanoes)

28. Domain Bacteria  Eubacteria are prokaryotes whose cell walls contain peptidoglycan. Organizing Life’s Diversity  Eubacteria are a diverse group that can survive in many different environments. 17.3 Domains and Kingdoms Classifying Using Biotechnology Chapter 17

29. Domain Archaea  Archaea are thought to be more ancient than bacteria and yet more closely related to our eukaryote ancestors. Organizing Life’s Diversity  Archaea are diverse in shape and nutrition requirements.  They are called extremophiles because they can live in extreme environments. 17.3 Domains and Kingdoms Chapter 17

30. Domain Eukarya  All eukaryotes are classified in Domain Eukarya. Organizing Life’s Diversity  Domain Eukarya contains Kingdom Protista, Kingdom Fungi, Kingdom Plantae, and Kingdom Animalia. 17.3 Domains and Kingdoms Chapter 17

31. Organizing Life’s Diversity 17.3 Domains and Kingdoms Chapter 17

32. Viruses—An Exception  A virus is a nucleic acid surrounded by a protein coat. Organizing Life’s Diversity  Viruses do not possess cells, nor are they cells, and are not considered to be living.  Because they are nonliving, they usually are not placed in the biological classification system. 17.3 Domains and Kingdoms Chapter 17