A. Why Classify? 1. organization makes it easier to understand and find information 2. taxonomy scientists classify organisms and assign each

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1 Classification

2 A. Why Classify? 1. organization makes it easier to understand and find information 2. taxonomy scientists classify organisms and assign each organism a universally accepted name by using a scientific name, scientists can make sure everyone is discussing the same organism

3 B. Assigning Scientific Names 1. Carolus Linnaeus a Swedish botanist who lived during the 18 th century developed a two-word naming system called binomial nomenclature this system is still used today in binomial nomenclature, each species is assigned a twopart scientific name the scientific name is always written in italics and the first word is capitalized, and the second word is lower case For example, the grizzly bear is called Ursus arctos The first word in the scientific name is the genus and the second word is the species

4 C. Linnaeus s System of Classification 1. Linnaeus s classification system consists of levels which is called hierarchial it includes seven levels From largest to smallest: (each level is called a taxon) Kingdom Phylum Class Order Family Genus Species

5 2. Each taxon: (a) Kingdom the largest and most inclusive of the categories Linnaeus named two kingdoms Animalia and Plantae (b) Phylum include many different organisms that share important characteristics for example, Chordata (c) Class for example, Mammalia, Amphibia, Reptilia (d) Order for example, Carnivora

6 (e) Family share many characteristics for example, Canidae (dogs) and Felidae (cats (f) Genus a group of closely related species for example, Ursus (g) species unique to each species smallest group for example, arctos or maritimus Ursus arctos - Grizzly bear Ursus maritimus Polar bear

7 A. Although physical characteristics are useful for classification, problems arise. It is better to use other similarities. B. evolutionary classification called phylogeny Biologists now group organisms into categories that represent lines of evolutionary descent, or phylogeny, not just physical similarities. C. Similarities in DNA and RNA can be used to help determine classification and evolutionary relationships

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9 D. Kingdoms 1. Five-kingdom system - Monera, Protista, Fungi, Plantae, and Animalia 2. Six-kingdom system recently, the kingdom Monera has been split because there are two distinct groups Eubacteria, Archaebacteria, Protista, Fungi, Plantae, and Animalia 3.Some classification systems have added a domain above the kingdom these three are bacteria, arachaebacteria, and eukaryotes

10 A. Humans Kingdom Animalia Phylum Chordata (subphylum vertebrata) Class Mammalia Order Primates Family Hominidae Genus Homo Species - sapiens

11 A. prokaryotic B. single celled C. lack true nuclei D. lack a cytoskeleton E. contain double-stranded circular chromosomal DNA that is not enclosed by a nuclear membrane

12 F. nourish themselves a. heterotrophically by feeding on dead materials (saprophytically) b. heterotrophically by attaching and feeding on living things (parasitically) c. autotrophs where they make their own food.

13 G. Structure Have cell walls made of peptidoglycan - a type of carbohydrate and peptide use gram staining to identify the strength of the cell wall gram positive cells have a thick wall that stains strongly while gram negative cells have a thin cell wall and an outer membrane that stains poorly. classified by their appearance a. cocci round b. bacilli rods c. spirilla spiral May come in duplexes (diplococci), clusters (staphylococci), or chains (streptococci)

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15 Archaebacteria have no organelles and have a simple circular DNA 1. Relatively unknown until recently 2. Tend to inhabit harsh environments like hot springs that might resemble the early earth 3. Different from eubacteria in their membranes lipids

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17 Kingdom Protista simplest of the eukaryotic organisms probably represents the evolution between prokaryotes and the rest of the eukaryotic kingdoms 1. most are unicellular 2. examples: amoeba, paramecium, euglena, algae, slime molds 3. some are mobile through cilia, flagella, and ameboid movements 4. some use sexual reproduction while others use asexual reproduction

18 Examples of kingdom protista 1. amoebas large single-celled organisms that do not have a specific body shape Change shape through the movement through the movement or streaming of their cytoplasm (called cyclosis) the extensions of the amoeba are called pseudopods Heterotrophs that feed by engulfing food through a process called phagocytosis (active transport) creates a food vacuole

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20 Examples of Kingdom Protists 2. ciliates complex, single-celled organisms such as the paramecium Surface is covered with cilia that move the cell through water like the oars of a boat Have a defined shape Have contractile vacuoles to remove excess water Food enters through an oral groove where it forms food vacuoles Reproduce asexually through mitosis Can also exchange genetic material through conjugation

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22 Examples of Kingdom Protista 3. slime molds in some cases, slime molds are grouped with fungi Heterotrophs Some slime molds spend time as independent cells while others gather together to form multicellular forms that produce spores

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24 Examples of Kingdom Protista 4. algae photosynthetic protists Mostly unicellular Include diatoms single celled organisms with intricate silica cells Include dinoflagellates with flagella Include brown and red algae Algae can reproduce sexually and asexually Includes giant kelp that is multicellular (may be grouped as a plant also)

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26 Kingdom Fungi heterotrophs that absorb nutrients from the environment Often saprophytic feed off dead materials Important because they help recycle nutrients Enzymes are secreted onto the dead material to digest the food then the nutrients are reabsorbed into the fungus Cell wall is made of chitin (unlike the cellulose in plants) Often form long slender filaments called hyphae Most reproduce both sexually and asexually Examples are mushrooms, molds, and yeasts

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29 Kingdom Plantae Multicellular eukaryotes that produce energy through photosynthesis Cell wall made of cellulose Plants are nonmotile Adapted for maximum exposure to light, air, and soil Increase in the ability to resist gravity and tolerate drier conditions First plants probably evolved from green algae in or near shallow water

30 Nontracheophytes plants without water transport systems also lack woody stems their lack of transport systems restricts their size and restricts their habitat to moist environments Evolution of vascular systems (transport systems) was a major adaptation in plants the first vascular plants were called tracheophytes did not produce seeds - for example, ferns and horsetails released spores

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32 Evolution of the seed was the next major step in plant evolution increases the plants ability to deal with the variable conditions on land plants are formed as the result of fertilization of male and female gametes Evolution of the flower was next allows for extra nutrition for the developing embryo

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34 Kingdom Animalia multicellular heterotroph Over time animals have become more complex with great specialization of tissue nervous systems have become more complex also Different body shapes 1. radial symmetry organized with their body in a circular shape radiating outward such as sea stars and jellies 2. bilateral symmetry the body has a left side that is a mirror image of the right side

35 Some animals are sessile (don t really move) like the hydra most of these animals are filter feeders or use their tentacles to capture food - requires very little energy at the mercy of the environment Animals that do move have complex nervous systems

36 Phylums in the Animal kingdom 1. Phylum porifera (sponges) First evolutionary step between protists and animals Resemble organisms that live in a colony Only a small amount of specialized cells No organs Only have a few types of cells No nervous system Can regenerate

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38 Phylums in the Animal Kingdom 2. phylum Cnidaria (hydra, sea anemone, jellies) Cnidarians are called coelenterates Have radial symmetry Aquatic animals Only two cell layers do not need circulatory or respiratory systems Have a simple nervous system Have stinging cells called nematocyst Start out as a polyp that lives attached and then become a medusa that is free floating May reproduce sexually or asexually

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40 Phylums in the Animal Kingdom 3. phylum Platylhelminthes (flatworms) Ribbonlike with bilateral symmetry Posses three layers of cells Lack a circulatory system Nervous system simple light detection organs, an anterior brain ganglion, and a pair of longitudinal nerve cords Digestive system a cavity with a single opening Not swift moving use cilia to move Some are able to regenerate example: planaria Many are parasitic flukes, tapeworms

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42 Phylums in the Animal Kingdom 4. phylum Nematoda (roundworms) Three layers Complete digestive tract with a mouth and an anus Do not have respiratory or circulatory systems exchange gases directly with the environment Has movement in one direction One of the most abundant groups Many are free-living but some are parasites

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44 Phylums in the Animal Kingdom 5. phylum Annelida (segmented worms) Earthworm and leeches Segmented bodies Have a body cavity Has movement that is coordinated by the nervous system has nerve cord and ganglion of nerve cells that function as a brain Exchange gases directly with the environment through their skin Has excretory system Has a closed circulatory system with 5 hearts

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46 Phylums in the Animal kingdom 6. phylum Arthopoda Jointed appendages Exoskeleton made of chitin Open circulatory system Three classes insects, arachnids, and crustaceans Has a respiratory system Has complex sensory organs One of the most varied and abundant groups

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48 Phylums in the Animal Kingdom 7. phylum Mollusca Clams, squid, snails Muscular foot Mantle that secretes a shell Rasping tongue called a radula Most are covered by a hard shell Some have a reduced inner shell Mostly aquatic and breath through gills

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50 Phylums in the Animal Kingdom 8. phylum echinodermata Include sea stars and sea urchins Spiny Have radial symmetry Have ability to regenerate Have a water vascular system used along with tube feet to hold onto objects and move Have a hard internal skeleton made of calcium deposits

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52 Phylums in the Animal Kingdom 9. phylum Chordata Have a stiff, solid dorsal rod called a notochord Have ventral heart Subphylums Vertebrates Examples: Reptiles, Birds, mammals,

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