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CHAPTER 18 CLASSIFICATION (Taxonomy) THE SIX KINGDOMS
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HISTORY OF TAXONOMY TAXONOMY –BRANCH OF BIOLOGY THAT NAMES AND GROUPS ORGANISMS ACCORDING TO THEIR CHARACTERISTICS AND EVOLUTIONARY HISTORY
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ARISTOTLE TWO KINGDOMS HE KNEW WERE PLANT AND ANIMAL WHY? USED COMMON NAMES TO DESCRIBE ORGANISMS; PROBLEM – COMMON NAMES NOT THE SAME WORLDWIDE OR EVEN REGION WIDE
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ARISTOTLE LATIN THE LANGUAGE USED TO NAME ORGANISMS LATIN – LANGUAGE OF SCHOLARS
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LINNAEUS The Father of Taxonomy CAROLOS LINNAEUS –SWEDISH BOTANIST/NATURALIST – DEVISED A SYSTEM OF GROUPING ORGANISMS INTO HIERARCHIAL CATEGORIES USED ORGANISM’S MORPHOLOGY TO CATEGORIZE IT
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Three Domain System Domain Archaea Domain Bacteria Domain Eukarya A domain is a broad group that living things are classified into on the basis of mRNA analysis.
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LEVELS OF CLASSIFICATION KINGDOM – LARGEST CATEGORY PHYLUM – SUBSET OF KINGDOM CLASS – SUBSET OF PHYLUM ORDER – SUBSET OF CLASS FAMILY – SUBSET OF ORDER GENUS – SUBSET OF FAMILY SPECIES – SINGLE ORGANISM TYPE
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BINOMIAL NOMENCLATURE TWO-NAME NAMING SYSTEM LATIN SCIENTIFIC NAME – GENUS AND SPECIES NAME EX: Drosopholus melongaster CAPITALIZE GENUS NAME, SPECIES NAME IS LOWER CAPS; UNDERLINE OR PUT IN ITALICS;
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MODERN CLASSIFICATION MODERN TAXONOMISTS AGREE THAT THE PHYLOGENY OR EVOLUTIONARY HISTORY OF AN ORGANISM BE USED TO CLASSIFY AN ORGANISM. SYSTEMATICS – ORGANIZES THE TREMENDOUS DIVERSITY OF LIVING THINGS IN THE CONTEXT OF EVOLUTION
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PHYLOGENETIC TREE A FAMILY TREE THAT SHOWS THE EVOLUTIONARY RELATIONSHIPS THOUGHT TO EXIST AMONG GROUPS OF ORGANISMS. REPRESENT A HYPOTHESIS BASED ON SEVERAL LINES OF EVIDENCE
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Phylogenetic Tree
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PHYLOGENETIC TREE EVALUATE AN ORGANISMS MORPHOLOGY BASED ON: SIMILAR LIVING ORGANISMS POSSIBLE ANCESTRAL ORGANISMS IN FOSSIL RECORD DNA EMBRYOLOGICAL DEVELOPMENT
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CHROMOSOMES & MACROMOLECULES MOLECULAR CLOCK – THE NUMBER OF AMINO ACID DIFFERENCES IS A CLUE TO HOW LONG AGO TWO SPECIES DIVERGED FROM A SHARED EVOLUTIONARY ANCESTOR;
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Molecular Clock
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KARYOTYPE COMPARISON REGIONS OF CHROMOSOMES THAT HAVE THE SAME PATTERN OF BANDING ARE CLUES TO THE DEGREE OF RELATEDNESS OF ORGANISMS;
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CLADISTICS USES SHARED DERIVED CHARACTERISTICS TO ESTABLISH EVOLUTIONARY RELATIONSHIPS; DERIVED CHARACTER – FEATURE THAT APPARENTLY EVOLVED IN THE GROUP UNDER CONSIDERATION; EX. BIRD FEATHERS EVOLVED WITHIN BIRDS AND NO OTHER GROUP;
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DERIVED CHARACTERISTICS STRONG EVIDENCE OF COMMON ANCESTRY BETWEEN ORGANISMS THAT SHARE THEM; CLADOGRAMS – DIAGRAMS MADE FROM CLADISTIC ANALYSIS THAT SHOW ANCESTRY
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Cladogram
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CLADISTICS CONCLUSIONS LEAD TO NONTRADITIONAL CONCLUSIONS: BIRDS, CROCODILES & ALLIGATORS ARE MORE CLOSELY RELATED TO EACH OTHER THAN TO SNAKES OR LIZARDS; REPTILES ARE A COMPOSITE OF SEVERAL BRANCHES OF VERTEBRATES;
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THE MODERN SYSTEM OF CLASSIFICATION SIX KINGDOM SYSTEM: ARCHAEBACTERIA EUBACTERIA PROTISTA FUNGI PLANTAE ANIMALIA
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ARCHAEBACTERIA UNICELLULAR PROKARYOTES DISTINCTIVE CELL MEMBRANES UNIQUE BIOCHEMICAL & GENETIC PROPERTIES AUTOTROPHIC (CHEMOSYNTHETIC) LIVE IN HARSH ENVIRONMENTS “ANCIENT” BACTERIA
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ARCHAEBACTERIA THERMOACIDOPHILES – HIGH HEAT AND LOW PH, LIVE IN HOT SPRINGS, HALOPHILES – SALT-LOVERS, LIVE IN DEAD SEA, GREAT SALT LAKE METHANOGENS – LIVE IN INTESTINAL TRACTS OF ANIMALS, SEWAGE TREATMENT PLANTS, PRODUCE METHANE CH4
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EUBACTERIA “TRUE” BACTERIA UNICELLULAR PROKARYOTES MOST AEROBIC CAN BE: HARMLESS PATHOGENIC
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ARCHAEBACTERIA & EUBACTERIA REPRODUCE BY BINARY FISSION RAPID EVOLUTIONARY RESPONSE TO ENVIRONMENTAL CHANGE I.E., ANTIBIOTIC RESISTANCE
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PROTISTA EUKARYOTIC MOSTLY SINGLE-CELLED ORGANISMS REQUIRE WATER (MOISTURE) TO LIVE EX. Euglena, Amoeba, Paramecium, Water molds, Slime molds, Algae Catch-All Kingdom
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Fungi Eukaryotic External Heterotrophs Secrete enzymes to break down food source & absorb food into body of fungi Unicellular (yeast) Multicellular (mushrooms) Cell walls made of chitin
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Plantae Eukaryotic Autotrophic Multicellular Non motile Cell walls with cellulose Photosynthesis to obtain energy Food stored as starch Reproduce sexually
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Plantae Non Vascular Plants Lack vascular tissue Lack true roots, stems, leaves Low growing Absorb water and nutrients Mosses Ferns
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Plantae Vascular Plants True roots, stems, leaves Water moves upward from roots
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Gymnosperms Conifers Seeds born on cones Mostly wind pollinated Evergreen Pines, spruce, fir, cedar, cypress, sequoia
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Angiosperms Flowering plants Seeds develop within enclosed ovaries Leaves modified into flowers, Flowers pollinated by wind or animals
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Angiosperms – Flowering Plants Two Divisions: Monocotyledons (monocots) – single seed leaf Lilies, corn Dicotolyledons (dicots) – two seed leaves Rose, maples,
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Animalia Eukaryotic Heterotrophic Multicellular Movement Organized into tissues and organs (most animals)
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Animalia Invertebrates Porifera – sponges Cnidaria – jellyfish, corals Platyhelminthes – tapeworms Nematoda – roundworms Annelida – segmented worms earthworms Mollusca – oysters, snails, octupus Arthropoda – spiders, crabs, bugs Echinodermata – sea stars
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Animalia Vertebrates Phylum Chordata Urochordata – sea squirt Cephalochordata - lancelets Vertebrata – fish, sharks, amphibians, reptiles, birds, mammals
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What is a Chordate? In some stage of its life: Dorsal, hollow nerve cord Notochord Pharyngeal pouches Tail extending beyond anus
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